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Safety Building Blocks for Programmable Logic Controller (PLC)
Date:
Duration:
November 7, 2016
Duration:
20:57
Functional safety is the part of the overall safety of a system or piece of equipment that depends on the system or equipment operating correctly in response to
Introduction to TI’s Enhanced Products for Harsh Environments
Date:
Duration:
June 24, 2016
Duration:
02:21
TI set the standard for Enhanced Products. Learn how these ruggedized COTS can support your next mission.
SafeTI Compiler Qualification Kit Overview
Date:
Duration:
November 3, 2014
Duration:
02:07
This video gives a brief overview of the SafeTI Compiler Qualification Kit, which supports customer classification and qualification of the TI ARM compiler
Functional safety
This four-part training series will provide you information to help ease the development of your IEC 61508 and ISO 26262 functional safety applications.
Hercules™ RM4 MCU Kits
Date:
Duration:
November 3, 2014
Duration:
04:46
This video provides an overview of all the evaluation and development kits available for the Hercules RM4 Safety Microcontrollers.
Hercules ARM Cortex-R System Architecture: Cortex-R4F Compared to Cortex R5F
Date:
Duration:
June 21, 2018
Duration:
18:33
This module provides a comparison between the ARM Cortex-R4F and ARM Cortex R4F system architectures of Hercules Safety Microcontroller (MCU).
Hercules ARM Cortex-R4 System Architecture: Processor Overview
Date:
Duration:
June 15, 2018
Duration:
15:41
This module provides an overview of the processor subsystem of the Hercules ARM Cortex-R4 Safety Microcontroller (MCU).
Overview of IEC 61508 and ISO 26262 safety standards and certification steps
Date:
Duration:
March 10, 2015
Duration:
01:00:25
This is the first of four videos in the functional safety training series. In part one, along with industry partner exida, we provide you with a comprehensive o
Hercules ARM Cortex-R4 System Architecture: Memory Protection Unit (MPU)
Date:
Duration:
June 20, 2018
Duration:
05:54
This module provides an overview of the Memory Protection Unit (MPU) of the Hercules ARM Cortex-R4 Safety Microcontroller (MCU).
Hercules ARM Cortex-R4 System Architecture: System Control Co-Processor (CP15)
Date:
Duration:
June 18, 2018
Duration:
05:14
This module provides an overview of the System Control Co-Processor (CP15) of the Hercules ARM Cortex-R4 Safety Microcontroller (MCU).
Hercules How to Tutorial: Using CCS UniFlash
Date:
Duration:
March 10, 2015
Duration:
12:52
This training shows you how to use the CCS UniFlash.
Make it Safe! SafeTI(TM) Design Packages
Date:
Duration:
March 10, 2015
Duration:
27:02
This training video will cover Make it Safe! SafeTI(TM) Design Packages.
Hercules™ MCU safety design considerations
This section provides insight into safety design for the Hercules microprocessor (MCU).
Hercules™ safety MCU architecture overview
This section provides an introduction to the system architecture of the Hercules safety microprocessor.
Hercules™ safety MCU development software and tools
This section looks at the software and other tools available for application development on the Hercules safety microprocessor (MCU).
Hercules™ safety MCU peripherals
This section provides an overview of the Hercules safety MCU peripherals and how they are used to support specific I/O functions for your application.
Hercules™ safety microcontrollers
This training series provides a broad understanding of the Hercules safety microcontroller (MCU).
Safety certification
This section takes a look at safety certification options for applications based on the Hercules™ safety microprocessor (MCU).
[Archived] ARM Cortex-R4/M3セーフティー・マイコン「Hercules」のご紹介
Date:
Duration:
November 2, 2014
Duration:
03:45
Hercules セーフティー・マイコンは安全機能のハードウェア化により、ソフトウェアのオーバーヘッドの低減を実現し、医療、産業および輸送用途のアプリケーションの安全規格の認証取得に役立ちます。TI の新規マイコンファミリーとして豊富で簡単な評価も合わせてご紹介します。
Hercules How to Tutorial: PWM Generation using the Hercules Launchpad
Date:
Duration:
March 10, 2015
Duration:
10:23
This video provides an overview of the Hercules Microcontroller LaunchPad development kit and demonstrates how to generate a Pulse Width Modulated (PWM) output