Product Integrity for the Product Safety & Conformance Representative (PSCR)
Home > Training > VDA > Product Integrity for the Product Safety & Conformance Representative (PSCR)
Seminar Content
Every organization within the automotive supply chain is obligated to ensure the safety and conformity of its products. In order to be aware of and to understand the many demands of the role of the product safety representative, comprehensive information and qualification is necessary. The aim of this two-day seminar is to explore the requirements in the Product Integrity handbook and to explain the role of Product Safety Representatives.
Who Should Attend
This seminar is designed for automotive executives and personnel who are to be deployed as or already are Product Safety Representatives.
Recommended Training and/or Experience
In order to attend this training, technical and/or business experience is necessary as well as experience in automotive quality management, typically in complaints and resource management. Furthermore, the participants should be qualified and experienced in the evaluation of technical product and process risks (e.g. FMEA facilitator, VDA 6.3 process auditor, designer/developer) and be knowledgeable about the use of the organization’s products, the state of the art as well as the requirements from relevant laws and customer requirements.
Seminar Materials
Each participant will receive a seminar manual.
Seminar Goals
- Communication of expert knowledge that enables the participants to handle their everyday work more professionally and in a more targeted fashion as a prospective or existing Product Safety Representative.
- Define the responsibilities in the whole supply chain, from development through manufacture and use, up to the end of intended use.
- Discuss product integrity in the product life cycle, guidance for product non-conformities and examples for tools and methods.
Seminar Agenda
Module 1
- Intro to Product Safety and Legal Compliance
- Recalls and Safety Concerns
- Product Liability and Compliance Obligations
- IATF 16949 on Product Safety
Module 2
- Intro – Product Integrity in the Organization
- VDA Volume on Product Integrity
- Functional Responsibilities
- Delegation of Responsibilities
Module 3
- Product Specific Qualification
- Process Specific Qualification
- Awareness and Product Safety Requirements Flowdown
- Capturing Lessons Learned (FMEA) and Prevention
Module 4
- Product Integrity Over the Product Lifecycle
- Product Development Phase
- Production Phase and Line Walk Reporting
- Usage Phase
- Product Monitoring
Module 5
- Conformity of Production (CoP)
- Response to Deviations
- Corrective Action
Organizational Implementation of Role for PSCR
Additional Background and Considerations
Product Integrity Qualification Examination
Related Courses
|
 Advanced Statistical Process Control (SPC)
|
| Manufacturing Process Development using PFMEA (Process Flow, PFMEA, Control Plan, Part & Process Approval)
|
| Basic Statistical Process Control (SPC)
|
| Understanding Core Tools - (APQP, PPAP, DFMEA, DVP&R, PFMEA, Control Plan, SPC and MSA)
|
| FMEA 4th Edition Update
|
| Implementing MMOG with IATF 16949:2016
|
| Measurement Systems Analysis (MSA) and Advanced Analysis (ANOVA)
|
| Production Part Approval Process (PPAP) Workshop with IATF 16949:2016
|
| Total Productive Maintenance (TPM)
|
| Understanding Core Tools - APQP & PPAP
|
| Understanding Core Tools - DFMEA & DVP&R
|
| Understanding Core Tools - PFMEA & Control Plan
|
| Understanding Core Tools - Statistical Process Control (SPC)
|
| Understanding Core Tools - Measurement Systems Analysis (MSA)
|
| Production Part Approval Process (PPAP 4th Edition)
|
| APQP, FMEA and Control Plans (New Revision)
|
| APQP 2nd Edition
|
| Effective Problem Solving
|
| 7QC
|
| APQP/PPAP
|
| Machine Failure Mode Effect Analysis (MFMEA)
|
| Understanding AIAG Sub-tier Supplier Management (CQI-19)
|
| Advanced Product Quality Planning (APQP) Overview
|
| Understanding the Five Phases of APQP
|
| APQP Manufacturing Process Development using PFMEA and PPAP
|
| Product Development using SFMEA, DFMEA and Associated Tools
|
| Measurement Systems Analysis(MSA) and Statistical Process Control (SPC)
|
| Conducting Internal and Supplier (Second Party) Audits to Automotive SPICE
|
| AIAG-VDA Product FMEA Overview
|
| SAE J3061 and ISO 21434:2019 Automotive Cybersecurity Certification
|
| AIAG-VDA DFMEA (SFMEA and DFMEA) for Practitioners and Facilitators
|
| AIAG-VDA FMEA for Managers and Implementers – Implementation Training
|
| AIAG-VDA FMEA Understanding, Implications, and Strategy Executive Overview
|
| AIAG-VDA Process FMEA and Control Plans for Practitioners and Facilitators
|
| Understanding AIAG-VDA DFMEA (SFMEA and DFMEA) for Design and Project Team Members
|
| Understanding AIAG-VDA Process FMEA and Control Plans for Process and Project Team Members
|
| SAE J3061 and ISO 21434:2019 Automotive Cybersecurity Executive Overview
|
| SAE J3061 and ISO/SAE 21434:2019 Overview for Functional Safety Engineers
|
| SAE J3061 and ISO 21434:2019 Cybersecurity Engineering Defense & Protection Against Attacks
|
| SAE J3061 and ISO 21434:2019 Automotive Cybersecurity Auditing and Assessment
|
| SAE J3061 and ISO 21434:2019 Conducting a Cybersecurity FMEA and Vulnerability Analysis Testing for Systems, Hardware and Software
|
| SAE J3061 and ISO 21434:2019 Cybersecurity Threat Analysis and Risk Assessment (TARA)
|
| Introduction to Autonomous and Electric Vehicles: A Functional Safety, SOTIF, and Cybersecurity Perspective
|
| Reverse Failure Mode and Effect Analysis – RFMEA
|
| Introduction to Systems Engineering: A Safety and Cybersecurity Perspective
|
| Writing Effective Requirements, Test Cases, and H/S Interfaces for Cybersecurity
|
| Preparing a Safety Case for Cybersecurity
|
| Transitioning to BS VI Understanding and Strategising
|
| Root Cause Analysis (RCA) - AIAG Approved
|
| Minitab Tools- AIAG Approved
|
Related Courses
|
| Advanced Statistical Process Control (SPC)
|
| Manufacturing Process Development using PFMEA (Process Flow, PFMEA, Control Plan, Part & Process Approval)
|
| Basic Statistical Process Control (SPC)
|
| Understanding Core Tools - (APQP, PPAP, DFMEA, DVP&R, PFMEA, Control Plan, SPC and MSA)
|
| FMEA 4th Edition Update
|
| Implementing MMOG with IATF 16949:2016
|
| Measurement Systems Analysis (MSA) and Advanced Analysis (ANOVA)
|
| Production Part Approval Process (PPAP) Workshop with IATF 16949:2016
|
| Total Productive Maintenance (TPM)
|
| Understanding Core Tools - APQP & PPAP
|
| Understanding Core Tools - DFMEA & DVP&R
|
| Understanding Core Tools - PFMEA & Control Plan
|
| Understanding Core Tools - Statistical Process Control (SPC)
|
| Understanding Core Tools - Measurement Systems Analysis (MSA)
|
| Production Part Approval Process (PPAP 4th Edition)
|
| APQP, FMEA and Control Plans (New Revision)
|
| APQP 2nd Edition
|
| Effective Problem Solving
|
| 7QC
|
| APQP/PPAP
|
| Machine Failure Mode Effect Analysis (MFMEA)
|
| Understanding AIAG Sub-tier Supplier Management (CQI-19)
|
| Advanced Product Quality Planning (APQP) Overview
|
| Understanding the Five Phases of APQP
|
| APQP Manufacturing Process Development using PFMEA and PPAP
|
| Product Development using SFMEA, DFMEA and Associated Tools
|
| Measurement Systems Analysis(MSA) and Statistical Process Control (SPC)
|
| Conducting Internal and Supplier (Second Party) Audits to Automotive SPICE
|
| AIAG-VDA Product FMEA Overview
|
| SAE J3061 and ISO 21434:2019 Automotive Cybersecurity Certification
|
| AIAG-VDA DFMEA (SFMEA and DFMEA) for Practitioners and Facilitators
|
| AIAG-VDA FMEA for Managers and Implementers – Implementation Training
|
| AIAG-VDA FMEA Understanding, Implications, and Strategy Executive Overview
|
| AIAG-VDA Process FMEA and Control Plans for Practitioners and Facilitators
|
| Understanding AIAG-VDA DFMEA (SFMEA and DFMEA) for Design and Project Team Members
|
| Understanding AIAG-VDA Process FMEA and Control Plans for Process and Project Team Members
|
| SAE J3061 and ISO 21434:2019 Automotive Cybersecurity Executive Overview
|
| SAE J3061 and ISO/SAE 21434:2019 Overview for Functional Safety Engineers
|
| SAE J3061 and ISO 21434:2019 Cybersecurity Engineering Defense & Protection Against Attacks
|
| SAE J3061 and ISO 21434:2019 Automotive Cybersecurity Auditing and Assessment
|
| SAE J3061 and ISO 21434:2019 Conducting a Cybersecurity FMEA and Vulnerability Analysis Testing for Systems, Hardware and Software
|
| SAE J3061 and ISO 21434:2019 Cybersecurity Threat Analysis and Risk Assessment (TARA)
|
| Introduction to Autonomous and Electric Vehicles: A Functional Safety, SOTIF, and Cybersecurity Perspective
|
| Reverse Failure Mode and Effect Analysis – RFMEA
|
| Introduction to Systems Engineering: A Safety and Cybersecurity Perspective
|
| Writing Effective Requirements, Test Cases, and H/S Interfaces for Cybersecurity
|
| Preparing a Safety Case for Cybersecurity
|
| Transitioning to BS VI Understanding and Strategising
|
| Root Cause Analysis (RCA) - AIAG Approved
|
| Minitab Tools- AIAG Approved
|
|
|