Price(s)
- Member
- Price: $1,499
- Non-Member
- Price: $1,899
Next Start Date
- May 13, 2024
- December 2, 2024
Duration
- 4 Days
Location
Virtual
11am-5pm est.
Course Overview
Three-day training course, tailored specifically to design/verification engineers and project/certification managers requiring DO-254 compliance. Conducted by Randall Fulton, an experienced consultant, FAA Designated Engineering Representatives (DER), and author, this three-day course will:
- Provide an overview and application of RTCA DO-254, as defined by current FAA and EASA guidance in airborne electronic systems.
- Describe how to apply the DO-254 lifecycle and supporting processes, understand system safety assessments and the design assurance level (DAL), set up a project correctly through proper planning and standards.
- Present techniques for writing requirements for electronic hardware and how to optimize requirements for the verification processes.
- Describe how to efficiently and effectively verify requirements with simulation and hardware test.
- Address specific considerations, for programmable logic devices (PLDs) such as FPGA/ASIC versus all electronics, commercial off-the-shelf (COTS) components usage, and tool assessment and qualification
Course Materials
- RTCA DO-254, Design Assurance Guidance for Airborne Electronic Hardware
- Course Manual
Course Fees
| Member | $1,499 |
| Non-Member | $1,899 |
Course Schedule
-
Overview of FAA/EASA Programs and Joint Certification Program Validation
Joint Certification Program and Validation
14 CFR 2X.1309
ARP-4754A and system aspects of certification
Design Assurance Level (FDAL and IDAL)
Design Assurance
ARP-4761 and Safety Analyses
Issue Papers, Certification Review Items
CAST Papers
Use of PLD’s in Avionics
RTCA/DO-254 introduction
Objective based compliance
Similarities and differences to DO-178C
FAA Orders
Compliance Reviews
Life cycle for electronic hardware
Life cycle data for electronic hardware
Objectives for electronic hardware development
Design assurance level differences (Level A and B vs Level C and D)
Using DO-254 for programmable devices (FPGA/ASIC) versus all electronics
Simple versus Complex
Commercial Off-the-Shelf (COTS) devices
Use of an Electronics Component Management Plan
Semiconductor industry device qualification testing
Graphics processors
IP Cores
SEU Considerations -
Complying with DO-254
DO-254 Additional Considerations
Previously Developed Hardware
Commercial Off The Shelf (COTS) Components Usage
Product Service Experience
Tool Assessment and Qualification
PHAC Example
Hardware Life Cycle
Hardware Design Representation Data
Validation and Verification Data
Process Data
Hardware Accomplishment Summary
Verification Background -
Requirements for Airborne Electronic Hardware
Allocation
Decomposition
Derived requirements
Requirements capture and writing
Classic Design Process
Design Assurance Through Design Practice
Verification Considerations
Appendix A
Appendix B
Randall Fulton
FAA Consultant DERMr. Randall FultonĀ is an FAA Consultant DER with 37 years of Electrical Engineering experience emphasizing software and electronic hardware development…
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