Microsemi: Libero SoC development software now certified to IEC 61508

Microsemi announced its Libero system-on-chip development software version 11.5 Service Pack (SP)2, offering a comprehensive suite of field programmable gate array (FPGA) design tools, has achieved functional safety certification from TÜV Rheinland according to the International Electrotechnical Commission (IEC) 61508-2, Annex F. With Microsemi now offering a Functional Safety Data Package, engineers designing products to conform to IEC 61508:2010 can utilize the company’s certified Libero tool chain to accelerate certification time.

The functional safety certification of Libero v11.5 SP2 supports Microsemi’s IGLOO and ProASIC3 FPGA product families, as well as many intellectual property blocks, in functional safety applications in accordance with IEC 61508 up to SIL 3. Using the new Functional Safety Data Package with the certified version of Libero makes it easier to pass functional safety assessments, accelerating the time to certification. Designers are also able to leverage the unique benefits of Microsemi’s differentiating FPGA features, including single event upset immunity, instant-on and lower power.

As part of Microsemi’s commitment to IEC 61508 safety-critical applications, its newly certified Libero SoC software is ideal for FPGA designs targeting applications within the industrial, medical, locomotive, avionics and defense markets such as robotics, transportation controls, drones and other applications where human life could be at risk if electronics fail. The company’s Functional Safety Data Package includes information on relevant devices and their capabilities; Libero SoC Design Suite v11.5 SP2, certified by TÜV Rheinland; Libero SoC documentation; relevant IP cores and associated documentation; and IEC 61508 Safety Data Manual.

Functional safety has become increasingly important as designers depend upon the ability to detect a potentially dangerous condition and activate a protective or corrective device to prevent hazardous events. Thus, the IEC 61508 Functional Safety of Electrical/Electronic/Programmable Electronic (E/E/PE) Safety Related Systems and other standards were created and continue to be updated. Validating the scope of the issue, the 2016 Wilson Research Group Functional Verification Study reported 44 percent of users were working on projects for safety-critical designs under various standards.


ZES Zimmer on testing advanced power electronics

In this video Bernd Neuner from ZES Zimmer talks to Alix Paultre for Electronic News TV at the 2017 Power Electronics Conference in Nuremberg. The discussion deals with the issues involving test and m...


Weidmüller discusses the need for a better signal and power interface

In this video Rene Arntzen from Weidmüller talks to Alix Paultre of Electronic News TV about the importance of a good signal and power interface for industrial equipment. There is currently no good ...


Mouser talks about the state of engineering development today

In this video Mark Burr-Lonnon and Graham Maggs of Mouser Electronics, a major international electronics distributor, talk to Alix Paultre about the state of engineering development today. With massiv...


Infineon launches a new family of configurable industrial drive boards

In this video Infineon explains their new family of configurable industrial drive boards at SPS-IPC Drives 2017. Intended to enable easy setup and deployment, the XMC-based automation boards can handl...


STMicro explains their STSPIN family of single-chip motor drivers

In this video STMicroelectronics explains their STSPIN single-chip motor drivers at SPS-IPC Drives 2017. The STSPIN family embeds can drive motors efficiently and with high accuracy, with an advanced ...


wholesale jerseys