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The IPC/DAC-2552 standard was developed jointly with the Digital Association of China (DAC), with the purpose to use Model Based Definition (MBD) to realize efficient and high-quality digital design of board-level assembly, support electronic assembly virtual manufacturing, and enabling the digitalization from requirement to product realization for printed board assemblies. The IPC/DAC-2552...
Establishes mechanical drop and shock and test guidelines for assessing solder joint reliability of printed board assemblies from system to component level. This document addresses methods to define mechanical shock use-conditions, methods to define system level, system printed board level and component test board level testing that correlate to such use conditions and guidance on the use of...
This standard establishes a Market Classification System and Level Classification System for printed electronics assemblies and provides a list of performance criteria and testing methods. It provides a standardized product category structure for designing and manufacturing printed electronics and assemblies which conform to industry-established performance metrics as determined by accepted...
Why waste time looking for answers? This handy, easy-to-use troubleshooting guide lists all types of processing problems and solutions for surface mount assembly. Covers bridging, skips, misalignment, placement and more. 38 pages. Released July 1993.
The IPC-9111 handbook is a valuable resource for anyone involved in manufacturing or purchasing printed board assemblies. Issues in the assembly process are presented along with possible causes and actions to take to resolve them. Photos are provided throughout the document to assist the reader. IPC-9111 supersedes the printed board assembly sections of IPC-PE-740A.
This document addresses the implementation of optical and optoelectronic packaging technologies. The areas discussed include: technology choices, design considerations, material properties, component mounting and interconnecting structures, assembly processes, testing, application, rework, and reliability of completed optoelectronic products. Optoelectronic packaging technologies include active...
This voluntary standard establishes minimum requirements for the design, installation, operation and maintenance of electrically heated process equipment in order to minimize electrical hazards and prevent fires that may occur in combustible tanks, tank liners and drying equipment.
J-STD-075 picks up where J-STD-020 left off by providing test methods to classify worst-case thermal process limitations for electronic components. Classification is referenced to common industry wave and reflow solder profiles including lead-free processing. The classifications represent maximum process sensitivity levels and do not establish rework conditions or recommended processes for an...
This standard prescribes test methods, defect definitions, acceptance criteria, and illustrations for assessing the solderability of electronic component leads, terminations, solid wires, stranded wires, lugs and tabs. A test method for the resistance to dissolution/dewetting of metallization is also included in the standard. Intended for use by both vendors and users, J-STD-002D was developed by...
The IPC-9505 standard provides details of test methodologies for cleaning chemistry compatibility with electronic assembly materials that replace those in MIL-STD-202 Method 215 for testing electronic and electrical components such as capacitors, resistors, transformers and inductors. The test methods can also be used, when applicable, to parts not covererd by military specifications or drawings
The IPC/JEDEC-9301document is an effort to standardize and document some of the basic tenets of a typical Finite Element Analysis (FEA) model, as well as, to educate new designers (and in some cases even experienced designers) on the basic information and best practices that should be captured and provided to technical reviewers of the results of FEA data.
Encapsulation, for the purpose of IPC-7621 standard, is defined as a low pressure molded thermoplastic, e.g., polyamide, which is brought to a liquid state and injection molded and (rather quickly) returned to a temperature below its melting point., forming a durable yet pliable (rubbery-like) form. The desired performance characteristics of low pressure molding (LPM) encapsulation depend on the...
Tackling PCB cleanliness is a tough job; residues on printed circuit boards are directly related to the reliability of the produced hardware and can result in serious failures if not known or monitored. But how do you measure "cleanliness"? How clean is "clean"? The IPC-5701 provides guidance into how these issues should be approached and specified in purchasing documents, addressing levels of...
J-STD-001E is recognized worldwide as the sole industry-consensus standard covering soldering materials and processes. This revision includes support for lead free manufacturing, in addition to easier to understand criteria for materials, methods and verification for producing quality soldered interconnections and assemblies. The requirements for all three classes of construction are included...
Download the free Amendment 1 (.pdf) that resolves conflict in measles criteria between J-STD-001D, IPC-A-610D, IPC-6012B and IPC-A-600G. Lead free acceptance criteria and pictures now included! Reformatted-easier to find acceptance criteria! Space Applications Electronic Hardware Addendum Published November 2006, with Amendment 1 Published September 2009. Download the Addendum. J-STD-001D is...
IPC J-STD-001F is recognized worldwide as the sole industry-consensus standard covering soldering materials and processes. This revision includes support for both traditional solder alloys and for lead-free manufacturing. Examples of some of the significant changes are revision to plated-through hole, PTH, minimum fill requirements; criteria for two new SMT termination types; and expanded...
Originally developed for J-STD-001B, it is also applicable to current assembly standards. Electronics manufacturers are faced with the difficult task of proving that a candidate manufacturing process can produce acceptable hardware, either to the customer of the product, or for internal quality control. Users have to determine many of the process qualification steps on their own. This document...
IPC-A-610 is the most widely used electronics assembly standard in the world. A must for all quality assurance and assembly departments, IPC-A-610E illustrates industry-accepted workmanship criteria for electronics assemblies through full-color photographs and illustrations. Topics include flex attachment, board in board, part on part, lead free, component orientation and soldering criteria for...
This standard is intended as a guideline in the proper preparation of a metallographic sample (microsection) of a printed board. The finished microsection is used for evaluating the quality of the laminate system and plated structures (e.g. PTHs and vias). Microsection sample preparation is regarded by many as a highly developed skill. The guidelines in this standard discuss the many variables and...
This document examines key issues in advanced packaging techniques. Provides information on what types of parts are available, the techniques and processes necessary for their proper use, possible advantages/disadvantages or problems, how to start implementation and where to find additional information. 138 pages. Released March 1988.
IPC-A-610F Amendment 1 is now available. See Related items. IPC-A-610 is the most widely used electronics assembly standard in the world. A must for all quality assurance and assembly departments, IPC-A-610F illustrates industry-accepted workmanship criteria for electronics assemblies through detailed statements reflecting acceptable and defect conditions, supported by full-color photographs and...
This standard addresses semiconductor flip chip design requirements. Provides information for using standard semiconductor substrates, materials, assembly and test methods with established fabrication, bumping, test and handling practices. Electrical, thermal and mechanical chip design parameters and methodologies are covered in the standard, as well as the reliability aspects associated with...
Mechanical bend and shock tests are routinely performed on SMT assemblies to ensure that they can sustain anticipated production, handling and end use conditions. The strains and strain rates applied to SMT assemblies during bend and shock testing can lead to a variety of failure modes in the vicinity of the solder joints. This document provides test methods to evaluate the susceptibility of...
IPC-8701 presents acceptance guidelines for the solar panel in final module assembly. The intent of this standard is to cover crystalline solar modules.Some of the content may be applicable to other photovoltaic modules such as thin film. The standard reviews and includes acceptance guidelines for incoming and finished frames, frame assembly, sealant, tape, junction box assembly, and bus bar...
Coming Soon
IPC-7095E: Design and Assembly Process Implementation for Ball Grid Arrays (BGAs)
IPC-7530B: Guidelines for Temperature Profiling for Mass Soldering Processes (Reflow & Wave)
IPC-2294: Design Standard for Printed Electronics on Rigid Substrates
IPC-6904: Qualification and Performance Specifications for Printed Electronics on Rigid Substrates
IPC-4105: Specification for Metal Base Copper Clad laminates for Rigid Printed Boards