Save Query
Load Query

Narrow Your Search

Language

Resource Type

Product Category

Product Name

Industry

Sub Industry

Show Results
1 - 10 Of 112 Results
1 2 3 4 5 12
Arrow

A Collaborative Approach to Product Development From Requirements Definition Down to Software Design, Implementation and Testing

Modern electronics systems bring many benefits to consumers, delivering new levels of functionality and safety in automotive, aerospace, healthcare and other applications. Yet managing the complexity of these systems also represents a significant challenge to the companies who design them. The drive for continued, rapid innovation must be balanced with the need to meet all regulatory requirements — and ensure the safe interaction of all components when systems are brought together. A strategic partnership between ANSYS and Jama Software has created a powerful tool set for managing the complex activities of product development, quality and reliability assessment and functional safety analysis.

View this on-demand webinar, ANSYS and Jama Software discuss why the appropriate processes and tools for these design activities are essential for meeting quality and safety standards.

In this on-demand webinar, learn how you can:
  • Seamlessly design a product from system requirements to implementation according to safety standards like DO178-C or ISO 26262.
  • Perform requirement-driven design and testing while considering technical and customer requirements.
  • Consistently manage all traceability requirements and ensure their availability for actual development and testing.
  • Feed low-level requirements and testing artifacts from ANSYS SCADE back to the overall requirements management system in Jama.

Author: ANSYS, Inc Type: Webinar Date:
Product Category: Systems


Request

Arrow

Understanding the SOTIF Domain and How Safety Analysis Tools Can Perform SOTIF-Related Analysis of E/E Systems

While functional safety standards (e.g., ISO 262626) address hazards caused by malfunctioning electrical/electronic (E/E) systems, they do not cover hazards that can occur even in the absence of system failure. One reason could be the performance limitations of the system or its components (e.g., sensors, perception algorithms). The ISO PAS 21448 standard on safety of the intended functionality (SOTIF) deals with the systematic identification, evaluation and subsequent risk mitigation of these hazards. SOTIF issues are especially important for advanced driver-assistance systems (ADAS) and autonomous vehicle (AV) systems. 

In this on-demand webinar, we will introduce the concepts of SOTIF and illustrate how our safety analysis tool — medini analyze — can perform SOTIF-related analysis of E/E systems. We will introduce a practical workflow incorporating SOTIF and hazard and risk assessment (HARA), which leads to triggering conditions for potentially hazardous behavior. We will also demonstrate how the SOTIF analysis can be combined with the ANSYS autonomous (AV) simulation environment in different use cases, e.g., to check effects of triggering conditions by simulation or verify that measures to mitigate SOTIF risks are effective.

Author: ANSYS Type: Webinar Date:
Product Name: ANSYS medini analyze
Product Category: Systems


Request

Arrow

Fail-Safe Digital Twin - ANSYS Advantage - V13 I1 - Article

Configurable safety relays help prevent injuries and damage in factory automation systems by cutting off electrical power in response to data received from sensors. When a safety relay fails, the production line must be halted until the relay can be repaired or replaced, resulting in expensive downtime. Phoenix Contact Electronics engineers use ANSYS software to develop a digital twin of its safety relays that will integrate real-time sensor data with simulation results to predict failures in advance. The relay can then be replaced or repaired while the line is not operating.

Author: Phoenix Contact Electronics GmbH Type: Article Date:
Product Name: ANSYS Twin Builder, ANSYS Maxwell, ANSYS SCADE Suite
Product Category: Systems, Electronics, Electronics - Electromechanical, Embedded Software
Industry: Industrial Equipment


View

Arrow

Peak Performance for an Electric Vehicle - ANSYS Advantage - V13 I1 - Article

Developing a vehicle to compete in the Pikes Peak International Hill Climb is a test for engineers around the world. Volkswagen Motorsports engineers were determined to build a car that could compete with the best but they had less than a year to do it — and the car would be electrically powered. Using determination, ingenuity and aided by multiphysics simulation the Volkswagen team smashed the race’s all-time electric speed record.

Author: Volkswagen Type: Article Date:
Product Name: ANSYS Fluent, ANSYS Twin Builder
Product Category: Systems, Fluids
Industry: Automotive
Sub Industry: Car and Light Truck OEMs


View

Arrow

Managing Large-Scale Battery Systems - ANSYS Advantage - V13 I1 - Article

Increasing electrification inevitably means more batteries, especially for mobile systems like planes, automobiles, trains and drones. These batteries are not standalone units but complex parts of a large system that must operate optimally to ensure safe and efficient energy usage. Safety and reliability are critical. Battery management systems (BMS) are essential components that leverage embedded software for real-time monitoring and control of rechargeable batteries in complex applications. To ensure that battery management systems are secure and dependable requires application of proven software tools:  ANSYS SCADE to design the embedded system, ANSYS medini analyze to verify its safety, and ANSYS Twin Builder to simulate the entire closed-loop power system to confirm that all components work together as designed.

Author: ANSYS Type: Article Date:
Product Name: ANSYS Fluent, ANSYS Twin Builder, ANSYS medini analyze, ANSYS SCADE Suite, ANSYS Mechanical
Product Category: Systems, Fluids, Multiphysics, Structures
Industry: Automotive
Sub Industry: Car and Light Truck OEMs


View

Arrow

Rapid Optimization of Electrical and Thermal Characteristics of Electric Vehicle Batteries

Battery powered electric vehicles (EVs) and hybrid electric vehicles (HEVs) have been gaining market share as the public’s environmental concerns and the depletion of fossil fuels drive the demand for better fuel efficiency. In this white paper we describe a six-step multiphysics simulation involving electrical and thermal parameters to design and validate any battery model. As a case study, we present the battery design for Volkswagen Motorsport’s I.D. R Pikes Peak, which achieved a stunning, record-breaking victory in the 2018 Pikes Peak International Hill Climb.

Author: ANSYS, Inc. Type: White Paper Date:
Product Category: Electronics, Systems
Industry: Automotive


Request

Arrow

ANSYS 2019 R1 medini analyze Update

The latest version of ANSYS medini analyze provides new features that support your development efforts for automotive, aerospace and semiconductor applications.

ANSYS medini analyze for the aerospace domain now comes with a native editor for functional hazard assessment (FHA), extended fault tree analysis (FTA) supporting time at risk models, and exchange of safety analysis data with FMEA MSR-XML. This will allow you to more quickly and accurately perform functional safety analysis for ARP4761 and other safety standards.

View this on-demand webinar to learn about the new features in medini analyze 2019 R1, along with information on the Function Net, FMEA MSR Exchange, ARP4761 FHA and FTA, Hdbk 217Plus, and the way to enable/disable safety mechanisms in FMEDA design variants.

Author: ANSYS Type: Webinar Date:
Product Name: ANSYS medini analyze
Product Category: Systems


Request

Arrow

Preserving the Life of Solar Power Inverters - ANSYS Advantage - V13 I1

Utilities increasingly require that the inverters which connect solar power and other distributed generation systems to the grid be capable of injecting reactive power to help maintain the stability of the grid. However, producing reactive power increases the thermal stress on inverters, which has the potential to reduce their lifespans. University of Pittsburgh researchers use ANSYS simulation software to electronically and thermally characterize inverters before the prototype stage so that designers can make better decisions in the early phases of the product development process.

Author: University of Pittsburgh Type: Article Date:
Product Name: ANSYS Twin Builder
Product Category: Systems, Academic
Industry: Energy


View

Arrow

ANSYS 2019 R1 VRXPERIENCE Update

ANSYS VRXPERIENCE in our latest release, ANSYS 2019 R1, takes the lead in the autonomous revolution by providing new features for development, virtual testing and validation of systems. By co-simulating using ANSYS VRXPERIENCE Headlamp and ANSYS SCADE, you can speed up the development of dynamic control laws for intelligent lighting systems. ANSYS VRXPERIENCE Sensors gives you the most complete and powerful sensor simulations on the market. Finally, ANSYS VRXPERIENCE HMI, which includes Head-Up Display, Perceived Quality and Sound Dimension applications, keeps the human element involved in the system development cycle loop for enhanced brand identity evaluation. All these new features connect with ANSYS VRXPERIENCE Driving Simulator, powered by SCANeR, to increase scenario realism, validation and simulation.

Author: ANSYS Type: Webinar Date:
Product Name: VRXperience
Product Category: Systems


Request

Arrow

ANSYS 2019 R1 SPEOS Update

Discover the latest release of ANSYS SPEOS, now with more predictive design power. You can create, test and validate a virtual prototype in a faster iteration loop. A refined human eye model enhances the human vision simulation. And, many updates improve your user experience, including:
  • New generic optimization engine automatically generates your perceived quality objective. It perfectly adapts to any advanced optical system.
  • New expert mode for Optical Design allows for more intelligent lighting in automotive applications. It ensures performance and compliance with standards and regulations.
  • Head-up display (HUD) design and analysis add-on expands your vision with cutting-edge features dedicated to the development of HUDs in automotive applications. By embedding optical knowledge, the add-on drastically improves the development process by anticipating issues early in the design phase.

Author: ANSYS Type: Webinar Date:
Product Name: Speos
Product Category: Systems


Request

1 - 10 Of 112 Results
1 2 3 4 5 12
 
Contact