We design, develop & commission tech solution for your complex automation needs.

KNEO Automation's Offers you:

1. PLC, HMI, SCADA Software Development

We have a dedicated PLC programming team. We provide end-to-end services which include post-deployment support and maintenance.

2. Project management

The program management team works on the front lines of projects to manage deliverables as per the plan and track the project activities. The project management team includes well-trained engineers & supervisors.

3. Onsite Commissioning

Our Engineers have done commissioning in over 30 countries. On-site commissioning support with Qualified PLC engineers.

4. Virtual Commissioning

With this, you will get to run the factory before you operate the actual factory.

5. Design – AutoCad, Eplan

We have an in-house dedicated, innovative, and intellectual design team. The mixture of rich and unique visual features our team introduces with alignment to the UI/UX guidelines makes the customer experience compelling and engaging.

6. Advanced engineering capabilities

We also provide Turnkey Industrial Automation and PLC Engineering Solutions, PLC Programming services, and PLC Commissioning services for various Industries.

7. Customer Service

Customer satisfaction is what we are keen for. Our skilled resources and customer support team ensure the installation & commissioning and provide customer support 24X7.

 

SATISFIED CUSTOMERS
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PROJECTS DELIVERED
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Customer Testimonial

Why KNEO?

Trustworthy Expertise:
Experience the assurance of partnering with KNEO, a proven industry leader in automation solutions.
Best of Industry Knowledge:
Benefit from KNEO’s deep industry knowledge and unrivaled proficiency in PLC programming, HMI development, and SCADA solutions.
Tailored Solutions:
Unlock your business’s full potential with KNEO’s customized automation solutions designed to meet your unique needs.
Seamless Integration:
Seamlessly integrate cutting-edge technologies into your operations with KNEO’s expertise in PLC, HMI, and SCADA systems.
Relentless Innovation:
Stay ahead of the curve with KNEO’s commitment to continuous improvement and the latest advancements in automation.
Exceptional Support:
Experience unparalleled support and responsive service from KNEO’s dedicated team, ensuring your success every step of the way.

Our Expertise

KEY NEO OFFERINGS

PLC, SCADA & Drives Engineering

We have been offering global turnkey automation solutions for the last 20 years, having 400+ installed bases in more than 30 countries. Our range of services includes PLC software development, onsite commissioning & customer service support, with MAPP as an IIoT solution we help to reduce operating and maintenance costs and achieve maximum ROI.

We develop PLC Control Software as per customer requirements keeping in mind the applicable standards for development and testing. Our experienced team specializes mainly in Software Development for high-quality Siemens and Allen Bradley PLC. 

We also provide virtual commissioning using simulation software to reduce onsite commissioning time by up to 40%.

Automation is used in the textile industry to improve the efficiency and accuracy of manufacturing processes and to increase the consistency and quality of the end products.

What we do:

  • Identify the processes and tasks that can be automated. This may involve evaluating the current manufacturing processes and identifying areas where automation could improve efficiency or accuracy.
  • Determine the best automation technology to use. This may involve evaluating different options, such as programmable logic controllers (PLCs), robotic systems, or automated finishing equipment, and deciding which will be the most cost-effective and efficient for the specific needs of the facility.
  • Design the control logic for the automated system. This involves creating a program using a specialized programming language, such as Ladder Logic or Structured Text, that specifies the conditions under which certain actions should be taken.
  • Installing and integrating automation equipment, such as PLCs, robotic systems, or automated finishing equipment, and integrating them with the facility’s existing systems, such as the enterprise resource planning (ERP) system.
  • Install and wire the automation equipment. This involves connecting the automation equipment to the process equipment and any sensors and actuators that are needed.
  • Test and debug the automation system to ensure that it is functioning correctly.
  • Train operators and maintenance staff on how to use and maintain the automation system.

Benefits:

Automation can help to improve the efficiency and accuracy of textile manufacturing and can help to ensure that end products meet the required quality standards.

Programmable Logic Controllers (PLCs) are used in the automobile industry to automate various manufacturing and assembly processes. PLCs are typically used to control and coordinate the operations of machinery and equipment on a factory floor, such as conveyor belts, robotic arms, and other automated systems.

What we do :

  • Identify the process or system that needs to be automated. This could be a manufacturing process, such as welding or painting, or it could be a material handling system, such as a conveyor belt.
  • Determine the specific tasks and operations that need to be performed by the PLC. This includes identifying the inputs (e.g., sensors) and outputs (e.g., actuators) that the PLC will need to control.
  • Design the control logic for the PLC. This involves creating a program using a specialized programming language, such as Ladder Logic or Structured Text, that specifies the conditions under which certain actions should be taken.

Automation is widely used in the pharmaceutical industry to improve the efficiency and accuracy of manufacturing processes, and to ensure the consistent quality of drug products . Automation can be used to control and coordinate various manufacturing processes, such as mixing, milling, granulating, and tablet pressing.

What we do :

  • Identify the processes and tasks that can be automated. This may involve evaluating the current manufacturing processes and identifying areas where automation could improve efficiency or accuracy.
  • Determine the best automation technology to use. This may involve evaluating different options, such as robots, conveyors, or automated testing equipment, and deciding which will be the most cost-effective and efficient for the specific needs of the facility.
  • Design the layout and flow of the automated facility. This includes determining the best location for automation equipment and determining the most efficient routing for materials and products.
  • Install and integrate the automation equipment. This may involve installing robotics systems, conveyors, or automated testing equipment, as well as integrating them with the facility’s existing systems, such as the enterprise resource planning (ERP) system
  • Designing and programming control systems using software such as PLCs (programmable logic controllers) and SCADA (supervisory control and data acquisition) systems
  • Developing and maintaining process control strategies to optimize production efficiency and product quality.
  • Test and debug the automated systems to ensure that they are functioning correctly.
  • Collaborating with other engineering and technical staff to troubleshoot and resolve issues with control systems
  • Performing system commissioning and validation to ensure that control systems are functioning correctly and in compliance with regulatory standards
  • Conducting risk assessments and developing risk management plans to ensure the safety of the production process
  • Maintaining documentation related to control systems, including technical manuals, schematics, and validation reports

Train employees on how to use and maintain the automated systems.

Benefits:

Automation can help to improve the efficiency and accuracy of pharmaceutical manufacturing and can help to ensure that drug products meet the required quality standards.

Automation is widely used in process industries, such as chemical, petrochemical, and oil and gas, to improve the efficiency and accuracy of manufacturing processes and to increase the consistency and quality of the end products.

What we do :

  • Identify the processes and tasks that can be automated. This may involve evaluating the current manufacturing processes and identifying areas where automation could improve efficiency or accuracy.
  • Determine the best automation technology to use. This may involve evaluating different options, such as programmable logic controllers (PLCs), distributed control systems (DCSs), or process analyzers, and deciding which will be the most cost-effective and efficient for the specific needs of the facility.
  • Design the control logic for the automated system. This involves creating a program using a specialized programming language, such as Ladder Logic or Structured Text, that specifies the conditions under which certain actions should be taken.
  • Installing and integrating automation equipment, such as PLCs, DCSs, or process analyzers, and integrating them with the facility’s existing systems, such as the enterprise resource planning (ERP) system.
  • Testing and debugging the automation systems to ensure that they are functioning correctly.
  • Providing technical support and training to operators and maintenance staff on how to use and maintain the automation systems.

Benefits:

Automation can help to improve the efficiency and accuracy of process industry manufacturing and can help to ensure that end products meet the required quality standards.

Automation is widely used in the food and beverage industry to improve the efficiency and accuracy of manufacturing processes and to increase the consistency and quality of the end products.

What we do:

  • We have gained good experience on end-to-end processes and equipment used in F&B plants from reception to dispatch.
  • Identify the processes and tasks that can be automated. This may involve evaluating the current manufacturing processes and identifying areas where automation could improve efficiency or accuracy.
  • Determine the best automation technology to use. This may involve evaluating different options, such as programmable logic controllers (PLCs), robotic systems, or automated packaging and labeling equipment, and deciding which will be the most cost-effective and efficient for the specific needs of the facility.
  • Design the control logic for the automated system. This involves creating a program using a specialized programming language, such as Ladder Logic or Structured Text, that specifies the conditions under which certain actions should be taken.
  • Installing and integrating automation equipment, such as PLCs, robotic systems, or automated packaging and labeling equipment, and integrating them with the facility’s existing systems, such as the enterprise resource planning (ERP) system.
  • Test and debug the automation system to ensure that it is functioning correctly.
  • Maintaining and troubleshooting the automation systems to ensure that they are operating at optimal performance.
  • Train operators and maintenance staff on how to use and maintain the automation system.

Benefits:

Automation can help to improve the efficiency and accuracy of food and beverage manufacturing and can help to ensure that end products meet the

Virtual Commissioning

With Kneo Automation’s virtual commissioning solutions, you can troubleshoot automatic control logic and PLC code in a virtual environment before moving to a real environment. By simulating and virtually verifying your automation equipment, you can confirm that it will work as designed and dramatically reduce system installation cost and startup time.

 

   
Simulation to resolve your technical difficulties in advance
Industries always want to speed up commissioning, minimize risks and maintain productivity without affecting current production. Virtual commissioning is the solution for that.
Virtual Commissioning Solution:
Our virtual commissioning solutions are capable of speeding up commissioning by simulating an exact mirror image of your factory in the virtual domain, containing automated motion over time so that all technical difficulties can be solved in advance. We can monitor system throughput and recognize bottlenecks to help you make better decisions.
1. Combine all automation assets (PLCs, motors, drives, etc)
2. Remove the need for reprogramming and reduce continuous on-site testing
3. Minimize the project lead time and project cost

Our Clients

Case Studies

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