P4Q Electronics provides product development services including hardware and software design, prototyping, and manufacturing of electronic systems. They have experience designing electronic devices for various industries like automotive, energy, and industrial. Their development process involves conceptual design, functional testing of prototypes, validation testing, and transitioning to industrial manufacturing. P4Q has the latest equipment to produce complex electronics and offers express prototyping, manufacturing, testing, and quality control services to support their customers' product development needs.
Koch Modular Process Systems, LLC (Koch Modular) provides process control system and automation solutions for standalone turnkey applications or integration within a customer's existing PLC, DCS, or SCADA infrastructure. Koch Modular engineers work directly with the customer to design a custom solution specific to meet their plant, industry, standards, and needs. Koch Modular can also assist in modification of existing control systems to upgrade or integrate enhanced functionality.
Through four use cases with examples, we describe how IEEE 1687 can be extended to include analog and mixed-signal chips, including linkage to circuit simulators on one end of the ecosystem and ATE on the other. The role of instrumentation, whether on the tester or on the device itself, is central to analog testing, and conveniently also the focal point of IEEE 1687. We identify enhancements to the modular netlist and test languages (ICL and PDL) to facilitate the description of the components involved in analog tests as well as the content of the tests themselves.
Koch Modular Process Systems, LLC (Koch Modular) provides process control system and automation solutions for standalone turnkey applications or integration within a customer's existing PLC, DCS, or SCADA infrastructure. Koch Modular engineers work directly with the customer to design a custom solution specific to meet their plant, industry, standards, and needs. Koch Modular can also assist in modification of existing control systems to upgrade or integrate enhanced functionality.
Through four use cases with examples, we describe how IEEE 1687 can be extended to include analog and mixed-signal chips, including linkage to circuit simulators on one end of the ecosystem and ATE on the other. The role of instrumentation, whether on the tester or on the device itself, is central to analog testing, and conveniently also the focal point of IEEE 1687. We identify enhancements to the modular netlist and test languages (ICL and PDL) to facilitate the description of the components involved in analog tests as well as the content of the tests themselves.
IBM ALM for aviation safety compliance aerospaceImran Hashmi
Check out more info at https://hashmi.ca
Challenges in Aviation Engineering
IBM Engineering platform for Aerospace/Defense
Engineering Lifecycle Management Solution for A&D capabilities
Deeper Dive: Accelerating Industry Compliance for Aerospace:
ARP4754 and DO178C
Summary and additional resources
Functional verification is one of the key bottlenecks in the rapid design of integrated circuits. It is estimated that verification in its entirety accounts for up to 60% of design resources, including duration, computer resources and total personnel. The three primary tools used in logic and functional verification of commercial integrated circuits are simulation (at various levels), emulation at the chip level, and formal verification.
ASM specializes in the Design and Value Engineering, Complex Prototyping, Competitive Manufacturing in the capital process equipment for Semiconductor, Solar and Display verticals. ASM honed its team skills and capabilities to meet current and future requirements with Equipment manufacturers. ASM has robust processes in place for design, documentation control and securing customer’s IP.
A project sponsored in 2010 by the Aerospace Vehicle Systems Institute (AVSI), AFE 74, engaged a community of reliability subject matter experts to develop a reliability prediction technology roadmap based on a collaborative quality function deployment (QFD) industry assessment. The QFD provided a means to capture multiple viewpoints in a detailed enumeration of the needs, priorities and potential solutions for new reliability prediction methods to better support reliable system design processes. The discussions that were inspired by conducting this QFD provided an opportunity to open communications on some very divisive reliability prediction issues and helped bring the community together to solve the challenges of improving the utility of reliability predictions for the future. This presentation summarizes the findings of each step of the QFD, the reliability predictions roadmap derived from the QFD and discusses steps being taken to implement the roadmap..
Smarter Manufacturing through Equipment Data-Driven Application DesignKimberly Daich
Author relates a number of specific Smart Manufacturing objectives to the applications required to achieve them and show how the standards-based equipment models directly support their respective algorithms. By Alan Weber of Cimetrix, Inc and Mark Reath from Globalfoundries
3. P4Q
P4Q ELECTRONICS, Diseño y Prototipaje
AIC AUTOMOTIVE INTELLIGENCE CENTER
PRODUCT DEVELOPMENT
In our development facilities, our human capital holds an
extensive experience in designing both hardware and
software products, as well as electronic systems. (DFM/
DFT/ DFA).
P4Q Incorporate the development of mechanicals in
relation with the electronic device to fulfil the expectations
of our customers (Concept/ Function/ Production).
We coordinate interaction of electronic device with other
elements (Aluminium or technical polyamides
components).
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4. P4Q
P4Q ELECTRONICS, Diseño y Prototipaje
AIC AUTOMOTIVE INTELLIGENCE CENTER
PROTOTYPES/
CONCEPTUAL DESIGN INDUSTRIAL PHASE
FUNCTIONAL TEST
• Schemes/ HW’s design • Pre series
• Physical
• DFM • Industrial test’s
construction of
• Components selection definition of specs.
prototypes with
criteria's. • Quality control plan
automatic machines.
• Functionality/ product’s registers and data
• Burning test &
validation bases & traceability.
functional specs &
• Cost structure • Industrial validation
climatic chamber.
test vs. products (DFT)
• Thermal analysis
Projects managed according • Full guaranteed
• Integration with
to CMMI normative. production.
associated
mechanicals (DFA) &
systems.
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5. P4Q
P4Q ELECTRONICS, Diseño y Prototipaje
AIC AUTOMOTIVE INTELLIGENCE CENTER
ELECTRONIC DEVELOPMENT PHASES
Our development department provides its know-how to
support all the different phases of design, such as product
specifications, Hardware and Software design,
prototyping, validation and approval, as well as product
life analysis.
Functionalities & hardware ‘s design
Routing of PCB according to space and conditions of work
and EMC Requirements..
Embedded software development and checking.
Electrical & software & Functional test systems.
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6. P4Q
P4Q ELECTRONICS, Departamento i+D+i
AIC AUTOMOTIVE INTELLIGENCE CENTER
EXPRESS PROTOTYPING
We have means for express prototyping
that integrates all the latest production
equipment needed to manufacture highly
complex references (Fine pitch 0,3mm,
QFN, Micro-BGAs, 0201).
The possible size range for prototypes goes
from 50x50x0,5 to 1400x450x4
millimetres.
The prototype service is focused to achieve
the demanding deadlines required in the
design and validation phases of a new
product.
With the manufacturing of the prototypes,
we also offer complementary services, both
for validation (3D X-ray, climatic chamber)
and analysis of the design for
manufacturing (DFM), and design for
Testing (DFT).
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7. P4Q
ELECTRONIC MANUFACTURING
Our great response and operational capabilities result in
an outstanding quality service always ready to offer a
wide range of solutions. This combination has made P4Q
become a very important point of reference for electronic
production.
P4Q has the latest available equipment in the market,
which allows us to manufacture the most complex
products with the best guarantees. Traceability of each
component and PCB guaranteed by Mentor
Graphics (Valor)
In our facilities, we run SMD lines with a capacity of
components from 0201 to Micro-BGA, in-line inspection
machines (AOI), Solder wave lines, X-ray capabilities, as
well as final assembly and test lines.
Production facilities fitted to short productions.
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8. P4Q
TEST TECHNOLOGY
In a constant effort to ensure the quality of the product, P4Q
has developed test solutions for its customers for more than a
decade.
P4Q provides solutions according to the different requirements
for the verification of the product, from optical test (AOI) and
electric (ICT) to high-level test (Boundary Scan, JTAG), or X-
rays, as well as hybrid and functional testing.
The testing strategies of each product are set in collaboration
with the customer. As result, a DFT (Design for Testing) is
developed to ensure the optimization of the test investment as
well as the lead-time of the manufacturing process.
• X Ray 3D – Flying probes
• Quality certification TS 16949
• Remote access to test results, traceability by PCB & assembly
& components
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