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TRICONEX SYSTEMS

Introduction

The safety and critical control systems brand Triconex is well-known for its offerings in the areas of industrial process control and safety. Schneider Electric’s Triconex system is widely utilized in process sectors where safety and dependability are critical, including oil and gas, petrochemical, power generation, and other industries.

SIS Project

We possess expertise in variety of SIS projects:

  • Review Project Specifications . 
  • Prepare / Review System Architecture, Hardware Selection, Bill Of Material.
  • Prepare / Review G.A. Drawing, System Manual,  Test Report, Commission & Validation Report.
  • We have safety professionals to ensure that the system is effectively designed, implemented, and maintained.  

Triconex Configuration

To guarantee the dependability and safety of your vital activities, we use the TriStation Program.

  •  Project Setup: In the TriStation program, start a new project. Specify parameters unique to your project, including its name, location, and other pertinent information.
  • Hardware Configuration: Provide detailed information about the Triconex system’s hardware, such as the controller, input/output (I/O) module, and communication interface configurations. For correct communication, give different hardware components addresses.
  • Functional Design: Specify which safety tasks the Triconex system will carry out. To guarantee safe operation, this entails identifying crucial process parameters and figuring out the logic needed. To develop the logic for every safety function, use TriStation’s graphical programming tools.
  • Logic Configuration: Generate the control logic for the safety instrumented functions using graphical programming languages such as Sequential Function Chart (SFC) or Function Block Diagram (FBD). To guarantee that the intended safety integrity level (SIL) is reached, put interlocks, alarms, and other safety elements into place.
  • Point Configuration: Set up individual points that correspond to the inputs and outputs of the safety routines. Setpoints, alarm limits, and other parameters should be specified for every point.

Triconex FAT Commissioning & Start-Up

We assist with software FAT, commissioning, and startup, and we take part in them.

  • Simulation and Testing: To test the preset logic in a virtual environment before deploying it to the real Triconex system, use TriStation’s simulation tools. Make that the safety functions fulfill safety criteria and function as intended by conducting comprehensive testing.
  • Documentation: Provide logic diagrams, safety requirement specifications, and other pertinent documentation for the configured project. Keep track of any modifications or adjustments made while configuring.
  • Verification and Validation: Verify and validate the configured Triconex system to make sure it satisfies safety regulations and standards. Include the appropriate parties in the validation process, such as safety experts and process engineers.
  • Commissioning: When the Triconex system is being commissioning, put it into use in the real industrial setting. While the system is being commission, keep an eye on its performance and take corrective action if necessary.
  • Operational Readiness: Evaluate the Triconex system’s operational preparedness, taking into account elements including emergency response protocols, operator training, and documentary accessibility. Verify the system’s suitability for industrial use and deployment.

Triconex Safety Validation (TSV)

We support you in passing your compliance audits and validating your safety system.

  • Failure Mode and Effect Analysis (FMEA): To determine probable failure modes and evaluate the effects of those failures on the safety functions, do a failure mode and effect analysis (FMEA). Make sure the Triconex system is built to handle and react to recognized failure modes in a way that preserves or improves safety.
  • Proof Testing: Verify the functionality of crucial Triconex system components by putting proof testing processes into place. In order to make sure that sensors, actuators, and other components react appropriately to simulated demands, this may entail physically testing the components.
  • Regulatory Compliance: Ensure that the Triconex system complies with relevant safety standards and regulations, such as IEC 61511. Document and report the results of safety validation activities to regulatory authorities, if required.