Micros

TI helps developers make the world safer with its new Hercules™ safety microcontroller platform for medical, industrial & transportation applications

8th September 2011
ES Admin
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Designed to help developers obtain safety certifications, Texas Instruments Incorporated have announced its new Hercules safety microcontroller platform for medical, industrial and transportation applications. The platform consists of three ARM Cortex-based microcontroller families that deliver scalable performance, connectivity, memory and safety features for applications that require a high level of reliability. Unlike many microcontrollers that rely heavily on software for safety capabilities, Hercules microcontrollers implement safeguards in hardware to maximize performance and reduce software overhead. Coupled with robust tools, software and safety documentation, this functionality gives developers the headroom to differentiate their end products and speed time to market.

Hercules safety microcontrollers are rooted in TI’s 20+ years of safety-critical system expertise, industry collaboration and proven hardware for the automotive market. The new Hercules RM4x family provides the highest levels of performance for broad applications, including medical and industrial. The Hercules TMS570 family addresses transportation applications and the Hercules TMS470M family cost-efficiently meets the needs of applications that require less performance.



Advanced safety features of the high-performance Hercules RM4x and TMS570 families:

The Hercules RM4x and TMS570 microcontroller families provide safety features in hardware to detect random faults and protect against systematic faults.

Dual ARM Cortex-R4F floating-point cores in lockstep provide the highest level of on line diagnostics

CPU and all bus masters include memory protection.



Error correction codefor flash and RAM with Single Bit Error Correction and Double Bit Error Detection evaluated in the lockstep CPUs without performance impact

CPU and RAM include built-in-self-test (BIST) for detection of potential latent faults without software overhead.



Parity on peripheral RAMs, dual analog-to-digital-converters (ADCs) and timers, as well as voltage and clock monitoring for additional diagnostic coverage

Intelligent Error Signaling Module allows the end application to take appropriate action based on the type of error

Safety manual details how to implement Hercules MCUs into safety-critical applications

Failure Modes, Effects and Diagnostic Analysis (FMEDA) provides the failure rate information needed to meet safety standards



Features and benefits of the Hercules RM4x MCU family:

Up to 220 MHz based on dual ARM Cortex-R4F floating-point cores in lockstep, providing high performance for industrial automation, servo drives and medical instrumentation such as diagnostic and therapeutic equipment

Supports single and double precision floating-point math to execute complex math

Capable of achieving International Electrotechnical Commission (IEC) 61508 SIL-3 safety standard

Ethernet, CAN, and USB connectivity for networking capabilities important to safety-critical industrial automation and medical instrumentation

Up to 3 MB flash and 256KB RAM for feature-rich applications



Features and benefits of the Hercules TMS570 MCU family:

Up to 180 MHz based on dual ARM Cortex-R4F floating-point cores in lockstep, providing performance for transportation applications, such as railway, aerospace and automotive

Supports single and double precision floating-point math to execute complex math

Capable of achieving ISO 26262 ASIL-D and IEC 61508 SIL-3 safety standards and is AEC-Q100 qualified to satisfy automotive requirements

Operation up to 125 degrees Celsius to address transportation temperature ranges

Ethernet, CAN, and FlexRay™ connectivity for higher-bandwidth networking required for existing and evolving transportation applications

Up to 3MB flash and 256KB RAM for feature-rich applications



Features and benefits of the Hercules TMS470M MCU family:

Up to 80 MHz based on an ARM Cortex-M3 core provides cost-efficient performance

AEC-Q100 qualified to satisfy automotive requirements and support for IEC 61508 system safety Local Interconnect Network (LIN) and CAN support common transportation networking

320 - 640KB flash and 16 – 48KB RAM address varying memory requirements



Tools and support for safety-critical development

To get started quickly, developers can use the low-cost Hercules USB Stick Development Kits or the full-featured Hercules Development Kits. Each kit comes with all the hardware and software required to get up and running quickly, including TI’s Code Composer Studio™ integrated development environment, HALCoGen peripheral configuration tool and a Safety Demo that showcases BIST execution and error forcing modes.



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