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Manufacturing - Endeavor Business Media
Sponsored by:
IndustryWeek

Streamline Functional Safety Certification

Streamline Functional Safety Certification

Streamline Functional Safety Certification

Streamline Functional Safety Certification

Engineering Expertise with a Functional Safety Commitment

Create safer, more reliable system designs faster with the right products, engineering, expertise, and design resources. With easy-to-use part selection tools, TI enables you to quickly explore their dedicated portfolio of products for functional safety systems offering critical documents and based on rigorous R&D processes supporting up to ASIL D and SIL 3 systems. TI’s dedicated involvement in industry standard organizations is a reflection of TI’s commitment to develop products with the diagnostics and component level systematic capability to support your system’s safety life cycle.
Experience Matters
1980s

Safety foundation established for passive and active safety

2009

First TMS570LS20x certified IEC 61508

2011

First C2000 appliance certified / recognized compliant
IEC 60730
UL 1998

2012

First automotive product compliant
ISO 26262

Safety MCU design packages support system functional safety certification

2013

Initial Safety-Compliant Silicon Development Process Certification
ISO 26262
IEC 61508

2014

Corporate governance established company-wide collaboration for embedded processing and analog products

Safety Software Development Process Certification
ISO 26262
IEC 61508

First MCUs certified
ISO 26262
IEC 61508

2019

Safety Silicon and Software Development Process Certificaton refreshed, expanded and recertified in compliance with automotive-SPICE and 2nd edition of
ISO 26262

2020

Simplified part selection

  • Functional Safety-Capable
  • Functional Safety Quality-Managed
  • Functional Safety-Compliant
1980s
Safety foundation established for passive and active safety
2009
First TMS570LS20x certified
IEC 61508
2011
First C2000 appliance certified / recognized compliant
IEC 60730
UL 1998
2012
First automotive product compliant
ISO 26262
Safety MCU design packages support system functional safety certification
2013
Initial Safety-Compliant Silicon Development Process Certification
ISO 26262
IEC 61508
2014
Corporate governance established company-wide collaboration for embedded processing and analog products
Safety Software Development Process Certification
ISO 26262
IEC 61508
First MCUs certified
ISO 26262
IEC 61508
2019
Safety Silicon and Software Development Process Certificaton refreshed, expanded and recertified in compliance with automotive-SPICE and 2nd edition of ISO 26262
2020
Simplified part selection
  • Functional Safety-Capable
  • Functional Safety Quality-Managed
  • Functional Safety-Compliant
What Does This Experience and Expertise Mean?
Expertise
Expertise
Decades of safety engineering expertise.
Leadership
Leadership
Industry leadership as a participant in IEC 61508 and ISO 26262 standards organizations.
Development
Development
R&D processes for developing TI products that support functional safety system designs that are up to ASIL D and SIL 3.
Simple Selection
Simple Selection
Tools and expertise to simplify TI product selection.
Compliance
Compliance
Functional Safety-Compliant products that leverage TI’s TÜV SÜD-certified certified hardware and software development processes.
Expertise
Expertise
Decades of safety
engineering expertise.
Leadership
Leadership
Industry leadership as a
participant in IEC 61508 and
ISO 26262 standards
organizations.
Development
Development
R&D processes for developing
TI products that support
functional safety system
designs that are up to ASIL D
and SIL 3.
Simple Selection
Simple Selection
Tools and expertise
to simplify TI product selection.
Compliance
Compliance
Functional Safety-Compliant products
that leverage TI’s TÜV SÜD-certified
certified hardware and software
development processes.
Demonstrated Functional Safety Commitment
 
Development Process
Analysis Report

Diagnostics Desc.

Certification

 

TI Quality-Managed Process

TI Functional Safety Process

Functional Safety FIT Rate

FMD and/or PIN FMA**

FMEDA

Fault Tree Analysis**

Functional Safety Manual

Functional Safety Product Cert.***

Functional
Safety-Capable

 

 

 

 

 

Functional Safety Quality-Managed

 

Included in FMEDA

 

 

Functional
Safety-Compliant

Included in FMEDA

 

Development Process

Analysis Report

Diagnostics Desc.

Certification

 

TI Quality-Managed Process

TI Functional Safety Process

Functional Safety FIT Rate

FMD and/or PIN FMA**

FMEDA

Fault Tree Analysis**

Functional Safety Manual

Functional Safety Product ***

Functional
Safety-Capable

 

 

 

 

 

Functional Safety Quality-Managed

 

Included in FMEDA

 

 

Functional
Safety-Compliant

Included in FMEDA

 

Development Process

Analysis Report

Diag. Desc.

Certification

 

TI Quality-Managed Process

TI Functional Safety Process

Functional Safety FIT Rate

FMD and/or PIN FMA**

FMEDA

Fault Tree Analysis**

Functional Safety Manual

Functional Safety Prod.***

Functional
Safety-Capable

 

 

 

 

 

Functional Safety Quality-Managed

 

Included in FMEDA

 

 

Functional
Safety-Compliant

Included in FMEDA

Functional Safety-Capable

Low complexity products that can be evaluated for use in a functionally safe system.

Development Process

Analysis Report

Diagnostics Desc.

Certification

TI Quality-Managed Process

TI Functional Safety Process

Functional Safety FIT Rate

FMD and/or PIN FMA**

FMEDA

Fault Tree Analysis**

Functional Safety Manual

Functional Safety Product Certificate***

 

 

 

 

 

Functional Safety Quality-Managed

Previously-released, complex products that have had additional documentation developed to enable their use in functional safety applications.

Development Process

Analysis Report

Diagnostics Desc.

Certification

TI Quality-Managed Process

TI Func. Safety Process

Func. Safety FIT Rate

FMD and/or PIN FMA

FMEDA

Fault Tree Analysis

Func. Safety Manual

Func. Safety Product Certificate

 

Included in FMEDA

 

 

 

Functional Safety-Compliant

Products specifically developed to be compliant to functional safety standards that can be used in functional safety applications.

Development Process

Analysis Report

Diagnostics Desc.

Certification

TI Quality-Managed Process

TI Func. Safety Process

Func. Safety FIT Rate

FMD and/or PIN FMA

FMEDA

Fault Tree Analysis

Func. Safety Manual

Func. Safety Product Certificate

 

Included in FMEDA

 

 

 

** May only be available for analog power and signal chain products.

*** Available for select products
View Hardware Process Certificate
View Software Process Certificate
Functional Safety-Capable: Low complexity products that can be evaluated for use in a functionally safe system.
Functional Safety Quality-Managed: Previously-released, complex products that have had additional documentation developed to enable their use in functional safety applications.
Functional Safety-Compliant: Products specifically developed to be compliant to functional safety standards that can be used in functional safety applications.
Start Your Design at TI.com/functionalsafety
Find the right TI products for your design. Exploring some of the most robust, Functional Safety-Compliant and Functional Safety Quality-Managed products—many designed with integrated safety mechanisms to help detect and prevent dangerous failures resulting from random hardware faults—that will ultimately help you achieve up to ASIL D or SIL 3 functional safety system certification.
Browse
Browse
Browse categories for simple product selection.
Browse
Browse
Browse categories
for simple product
selection.
Connect
Connect
Connect with product categories.
Connect
Connect
Connect with product
categories.
Review
Review
Low-complexity devices with readily available functional safety analysis documentation.
Review
Review
Low-complexity
devices with readily
available functional
safety analysis
documentation.
Access
Access
Access design resources such as functional safety FIT rate, tunable FMEDA, safety certificates, and software diagnostics libraries.
Access
Access
Access design resources such as
functional safety FIT rate, tunable FMEDA,
safety certificates, and software
diagnostics libraries.
Functional Safety-Capable Automotive High-Input Voltage Supervisor
Overvoltage and undervoltage reset IC with time delay and manual reset.
View Specifications
Functional Safety Quality-Managed automotive system basis chip (SBC)
Includes integrated CAN FD controller and transceiver.
 
View Specifications
Functional Safety-Compliant mmWave Radar Sensor
Provides integrating processing capability.
 
View Specifications
View products by product family
Explore Automotive and Industrial Systems
Explore Automotive and Industrial Systems
Explore Automotive and Industrial Systems
Leverage interactive system block diagrams to find the products, reference designs, or design resources for your automotive or industrial functional safety application.
Leverage interactive system block diagrams to find the products, reference designs, or design resources for your automotive or industrial functional safety application.
Automotive Systems
Advanced electronic components are reducing vehicle emissions, improving connectivity, and enabling levels of autonomous driving. With so much at stake behind the wheel, functional safety provides the necessary risk management framework. Your designs can meet ISO 26262 requirements and automotive safety integrity levels (ASILs) up to ASIL D with our devices, tools, and design resources.

ASIL A — Rear lights (failure on both sides)

Rear light designs may require:
  • Comprehensive diagnostics for fault identification
  • Highly flexible control of individual LED pixels
  • Continuous light output during battery supply transients
View Reference Block Diagram

ASIL B — Instrument Cluster (loss of critical data)

Instrument cluster designs may require:
  • Implementation of driver notification functions such as audio warnings
  • The ability to support high-resolution displays
  • Balancing meeting EMI requirements with performance
View Reference Block Diagram

ASIL C — Radar Cruise Control (inadvertent braking)

Radar cruise control designs may require:
  • Built-in RF processor for intelligent self-monitoring and calibration
  • 15MHz of IF bandwidth leading to less ambiguity with 300km/h max relative velocity detection
  • Built-in cascade functionality delivering less than 1-degree angular accuracy
View Reference Block Diagram

ASIL D — Electric Power Steering (self-steering)

Electric power steering designs may require:
  • Following state-of-the-art architecture regarding system redundancy in order to allow implementation of the system on the highest safety level
  • Providing a steering wheel position sensing in ignition-off state with minimal quiescent current
  • Optimizing size while maintaining the required safety and performance
View Reference Block Diagram
Industrial Systems

Industry 4.0 Focused

Industrial systems from Industry 4.0 to robotics and motor drives are getting smarter, safer and more efficient.


Reduce Downtime

The demand to design safer industrial systems, reduce manufacturing downtime and maximize the lifespan of equipment increases functional safety design requirements.


Meet IEC Requirements

Find the products and resources you need to meet your toughest industrial system-level design challenges while meeting standards such as IEC 61508, ISO 13849, IEC 61800 and IEC 60730.

SIL 1 — Temperature Transmitter

Temperature transmitter designs may require:
  • Precision signal chain for sensing
  • Ultra-low current
  • Multi-protocol industrial communication and interface solutions
View Reference Block Diagram

SIL 2 — DIN Rail Power Supply

DIN rail power supply designs may require:
  • Highly-efficient
  • Robust output-supply protection for over current, short circuit, and overvoltage
View Reference Block Diagram

SIL 2 & SIL 3 — Servo Drive Functional Safety Module

Servo drive functional safety module designs may require:
  • Safe torque OFF for servo drives
  • Redundant multiprotocol encoder interfaces and protected digital I/O
  • Cross monitoring of signals and enabling single hardware fault tolerance
  • Continuous self-diagnosis of circuits through monitoring voltage rails and temperature
View Reference Block Diagram

SIL 3 — Analog Input Module

Analog input module designs may require:
  • Increased speed for precision signal chain
  • High voltage analog multiplexer
  • Advanced protection and diagnostics
View Reference Block Diagram
Functional Safety Resource Center
Browse through our dedicated functional safety resources to read our white papers, watch our video series, or join our on-demand webinars.
Estimating Base Failure Rates (BFR)
Systematic and random hardware failures need to be addressed for you to achieve functional safety compliance. Learn about two techniques for estimating the base failure rate (BFR) required to calculate quantitative random hardware.
Streamline Your Functional Safety Design
Whether you’re designing for the factory floor or the highway, this white paper explains how TI’s approach to designing integrated circuits (ICs) provides you with the resources needed to streamline your functional safety design.
Functional Safety at TI: Overview
This video gives an overview of functional safety at TI, showcasing TI's history in functional safety and detailing the documentation available to aide your design.
Functional Safety at TI: Fit Rates
This is an introductory presentation that provides an overview of FIT rate and FIT rate standards and TI's functional safety certification process.
 
Understanding ISO 26262 Hardware Element Classes
This presentation explains how TI functional safety product categories align with the ISO 26262 hardware element classes.
How TI functional safety product categories align with ISO 26262 hardware element classes.
  • What the three types of ISO 26262 hardware element classes are
  • How TI functional safety product categories align with the standard
  • TI documentation provided for customers to evaluate hardware architectural metrics
     
Overview of functionally safe vs. non-functionally safe systems for industrial and automotive applications.
  • The difference between technology and functional safety FIT
  • Comparison of systems designed for functional safety vs. those that are not
  • Using TI’s parametric product search tool to quickly help identify products from TI
Register
Estimating Base Failure Rates (BFR)
Systematic and random hardware failures need to be addressed for you to achieve functional safety compliance. Learn about two techniques for estimating the base failure rate (BFR) required to calculate quantitative random hardware.
Streamline Your Functional Safety Design
Whether you’re designing for the factory floor or the highway, this white paper explains how TI’s approach to designing integrated circuits (ICs) provides you with the resources needed to streamline your functional safety design.
Functional Safety at TI: Overview
This video gives an overview of functional safety at TI, showcasing TI's history in functional safety and detailing the documentation available to aide your design.
Functional Safety at TI: Fit Rates
This is an introductory presentation that provides an overview of FIT rate and FIT rate standards and TI's functional safety certification process.
 
Understanding ISO 26262 Hardware Element Classes
This presentation explains how TI functional safety product categories align with the ISO 26262 hardware element classes.
How TI functional safety product categories align with ISO 26262 hardware element classes.
How TI functional safety product categories align with ISO 26262 hardware element classes.
  • What the three types of ISO 26262 hardware element classes are
  • How TI functional safety product categories align with the standard
  • TI documentation provided for customers to evaluate hardware architectural metrics
Overview of functionally safe vs. non-functionally safe systems for industrial and automotive applications.
Overview of functionally safe vs. non-functionally safe systems for industrial and automotive applications.
  • The difference between technology and functional safety FIT
  • Comparison of systems designed for functional safety vs. those that are not
  • Using TI’s parametric product search tool to quickly help identify products from TI
Register
Estimating Base Failure Rates (BFR)
Systematic and random hardware failures need to be addressed for you to achieve functional safety compliance. Learn about two techniques for estimating the base failure rate (BFR) required to calculate quantitative random hardware.
Streamline Your Functional Safety Design
Whether you’re designing for the factory floor or the highway, this white paper explains how TI’s approach to designing integrated circuits (ICs) provides you with the resources needed to streamline your functional safety design.
Functional Safety at TI: Overview
This video gives an overview of functional safety at TI, showcasing TI's history in functional safety and detailing the documentation available to aide your design.
Functional Safety at TI:
Fit Rates
This is an introductory presentation that provides an overview of FIT rate and FIT rate standards and TI's functional safety certification process.
Understanding ISO 26262 Hardware Element Classes
This presentation explains how TI functional safety product categories align with the ISO 26262 hardware element classes.
 
How TI functional safety product categories align with ISO 26262 hardware element classes.
  • What the three types of ISO 26262 hardware element classes are
  • How TI functional safety product categories align with the standard
  • TI documentation provided for customers to evaluate hardware architectural metrics
Overview of functionally safe vs. non-functionally safe systems for industrial and automotive applications.
  • The difference between technology and functional safety FIT
  • Comparison of systems designed for functional safety vs. those that are not
  • Using TI’s parametric product search tool to quickly help identify products from TI
Register