Comprendre l'inspection du premier article dans les circuits imprimés pour en maximiser les avantages

In the PCBA project, various inspection methods are applied throughout the manufacturing process to ensure the quality and reliability of the final product. These methods include Inspection AOI, which is used to detect defects and discrepancies in the PCB, and essais fonctionnels, which verifies the functionality and feasibility of the project.

A critical step when a project enters series production is First Article Inspection (FAI), a vital quality control process used to thoroughly check and validate prototypes, especially for complex designs and PCBA boards.

During FAI, manufacturers carefully inspect and test the initial prototype to ensure that it meets all required design specifications, technical features, and performance standards. The primary objective is to identify any deviations, faults, or errors in the prototype and address them before starting large-scale production.

Why is First Article Inspection necessary?

  • Identifying Design Flaws: FAI allows engineers to carefully examine the initial sample and verify its compliance with the required design features. This early examination helps to detect and address any errors, preventing costly faults from propagating to the final production stage.
  • Ensuring Product Performance: Through detailed inspection during testing, it can be ensured that the circuit board meets the required performance parameters. This confirmation minimizes the chances of malfunctioning electronic devices.
  • Minimizing Manufacturing Errors: Test items involve the measurement and assessment of critical features and parameters of the board. By detecting and addressing production errors, the chances of defects, rework, and wastage in large-scale PCB assembly can be significantly reduced.
  • Enhancing Product Reliability: Uncovering and rectifying faults during FAI contributes to the production of reliable and high-quality PCB boards. This, in turn, enhances the operating life of electronic products and their overall durability.
  • Cost Savings and Efficiency: Implementing FAI at the beginning of the manufacturing process helps to detect and resolve any faults before mass production. By addressing issues early on, it saves time and resources, leading to cost-effective manufacturing.
  • Meeting Industry Standards: Different industries, especially electronics, adhere to strict regulatory and quality standards. FAI inspection ensures that the PCBA board meets industry-specified requirements, enabling compliance with certification criteria and successful market placement of projects.
  • Satisfaction des clients : Pour Sociétés de PCBA, first article inspection reduces the chance of delivering defective products to users while providing high-quality products, minimizing complaints, returns and warranty claims.

First Article Inspection Report

What does the report contain?

When utilizing Services d'assemblage de PCB, the First Article Inspection Report is a crucial document that summarizes the results of the assembly process. The main components of the FAI Report for PCBA include:

  • Introduction: This section provides an overview of the inspection process and defines the goals of the FAI.
  • Product Information: Details about the assembled board, such as PCB design, layout, revision levels, part number, and any customer guidelines, are included in this part of the report.
  • Nomenclature : The FAI Report contains a comprehensive bill of materials that outlines the components used in the board assembly, along with their manufacturer’s details, part numbers, and quantities.
  • Assembly Process Details: This section outlines the Processus d'assemblage des PCB, including soldering techniques (through-hole or surface-mounted) and instruments used.
  • Inspection Criteria: The report explains the criteria used to evaluate the PCBA, covering tolerances, dimensions, electrical features, functional testing requirements, and other relevant parameters.
  • Inspection Results: Actual inspection results obtained during the FAI process, including tests, data, measurements, and observations, are documented in this part of the report.
  • Functional Testing: If functional testing was conducted during the FAI, the results and outputs are mentioned in this section, confirming that the board is functioning as per the required parameters.
  • Non-Conformities and Corrective Actions: Any discrepancies or non-conformities identified during functional testing or inspection are detailed in the Report, along with the corrective actions taken to address them.
  • Traceability: This critical section ensures that the components used in the assembly can be traced back to their sources, ensuring authentication and materials quality.
  • Approval Signatures: The report requires signatures from authorized personnel, including the manufacturer’s quality control team and the customer’s representatives. These signatures confirm that the PCB board assembly has been thoroughly inspected and meets all required specifications.
  • Conclusion : The FAI Report concludes with a summary of the inspection results and confirms the readiness of the PCBA for larger production based on the successful completion of the First Article Inspection.

How to create FAI report for PCBA project?

  • Gather Documentation: Start by collecting all related documentation, including PCB design files, Bill of Materials, engineering drawings, and any relevant industry standards that must be followed.
  • Verify Assembly: Ensure that the PCB assembly is completed in accordance with the assembly guidelines and approved design. Verify that all components are accurately connected, soldered, and positioned correctly.
  • Inspect Critical Features: Conduct a detailed inspection of important parameters, such as component connections, soldering joints, pad sizes, trace width, and high-reliability areas.
  • Perform Testing: Utilize various testing techniques to assess the functionality and performance of the assembled board based on the specified parameters.
  • Record Measurements and Test Results: Document all measurement values, testing data, and observations obtained during the testing process. Organize the information using clear tables and charts for easy reference. If any faults are identified during testing, note them down and propose appropriate solutions.
  • Create the Document: Prepare the FAI report using a standard format. Include the information gathered from the above steps in a structured manner.
  • Include Supporting Documentation: Supplement the FAI report with supporting documents, such as inspection reports, test data, photographs of the assembled board, and calibration documents for measurement tools used during inspection.
  • Implement Continuous Improvement: Use the insights gained from the first article inspection to enhance the manufacturing process and avoid similar non-conformities in future operations.


 PPAP (Production Part Approval Process)FAI (First Article Inspection)
Main ObjectiveVerify manufacturing process can consistently make parts according to user’s needsVerify conformance of initial part or prototype to specified design needs
DocumentationComprehensive documentation including Process Flow Diagrams, Part Submission Warrants (PSW), Control Plans, etc.Creation of a First Article Inspection Report documenting inspection outputs, corrective actions, and compliance with design features
TimingNormally done during later stages of manufacturing processDone at the start of production when first part or prototype is ready for inspection
PurposeProvided by supplier to customer as evidence of manufacturing process capability and adherence to requirementsPerformed by manufacturer or supplier and may be required by customer before approving mass production
LevelsIncludes different levels (Levels 1 to 5) based on customer or industry submission requirementsSingle inspection technique focused on starting sample or prototype
IntegrationPart of Advanced Product Quality Planning (APQP) processStandalone inspection technique but can be integrated into broader quality control framework
CollaborationCollaborative effort between supplier and user to ensure mutual understanding of quality requirementsFocuses on verifying design quality and manufacturability without necessarily involving the customer
ValidationValidation process for complete production partSpecifically validates first article or prototype

Why FIA Inspections on Approved Samples

The First Article Inspection is essential, even when you have an approved PCB sample, before commencing new manufacturing or implementing significant changes to the manufacturing process. While the approved sample may have been inspected and tested for specific designs or orders, there is no guarantee that each new production will be identical or free from errors. Let’s explore the main reasons for conducting FAI on approved samples:

Ensuring Manufacturing Consistency and Handling Variability

Manufacturing processes inherently involve variability, influenced by factors like raw material changes, environmental conditions, supplier variations, and instrument settings. Even with approved PCBA samples, new production may require adjustments due to these variables. FAI ensures that every new PCBA product meets the same level of quality as the approved sample, ensuring manufacturing consistency and protecting against undesired discrepancies.

Detecting Hidden Defects and Ensuring Product Integrity

Although an approved assembly sample signifies compliance with certain requirements, it does not guarantee immunity from errors in subsequent manufacturing. Human errors, instrument defects, or unforeseen issues can arise during full-scale production, potentially affecting product operation and reliability. FAI acts as a diligent detective, using detailed inspection and testing techniques to identify and rectify hidden errors before they escalate, thereby avoiding costly recalls, rework, and customer complaints.

Validating Process Changes for Optimal Results

Manufacturing processes are continually optimized for operational excellence. Variations in assembly techniques, manufacturing methods, or equipment upgrades may be applied to improve efficiency or address specific challenges. Despite having an approved PCBA sample, FAI is still necessary to validate the effects of these process variations on final devices. Through thorough verification of compatibility and PCBA quality resulting from the varied processes, manufacturers can ensure consistent product quality and customer satisfaction.

Addressing Component Substitution for Seamless Integration

Due to market fluctuations or supplier availability, changes in component selection may become necessary. However, such substitutions should be made with careful consideration. FAI is crucial in checking the compatibility and performance of these replacement components to ensure seamless integration and consistent product outcomes, matching the approved sample’s standards.

Nurturing Continuous Improvement for Operational Excellence

FAI goes beyond being a one-time check; it is a critical component of a proactive strategy for ongoing manufacturing optimization. Regular FAI enables engineers and manufacturers to identify opportunities for optimization and refinement. Analyzing the results of each inspection facilitates data-driven decisions, leading to quality products, efficient processes, reduced waste, and increased customer satisfaction. A commitment to continuous improvement through FAI distinguishes successful and innovative manufacturing organizations.

Complying with Customer Requirements and Industry Standards

FAI is often a contractual requirement in addition to being a recommended practice, especially in sectors with stringent regulations and high consumer expectations. Customers and regulatory bodies may consider FAI as a key criterion for product acceptance. The inspection process reassures customers that PCBA meet required specifications and adhere to industry standards.

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