Altizon Systems > Case Studies > Automotive Component Manufacturer Improves with Datonis IoT Solution

Automotive Component Manufacturer Improves with Datonis IoT Solution

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Technology Category
  • Analytics & Modeling - Big Data Analytics
  • Automation & Control - Human Machine Interface (HMI)
  • Automation & Control - Programmable Logic Controllers (PLC)
  • Infrastructure as a Service (IaaS) - Cloud Storage Services
  • Platform as a Service (PaaS) - Application Development Platforms
  • Platform as a Service (PaaS) - Data Management Platforms
  • Sensors - Temperature Sensors
  • Sensors - Utility Meters
Applicable Industries
  • Automotive
Applicable Functions
  • Discrete Manufacturing
Use Cases
  • Building Energy Management
  • Factory Operations Visibility & Intelligence
  • Machine Condition Monitoring
The Customer
About The Customer
A 1.3 billion $ enterprise, Varroc is a leading global passenger car lighting supplier and the market leader among two-wheeler automotive component suppliers in India. Founded in 1990, they are an emerging global force in Automotive Component manufacturin
The Challenge

As a part of their Industry 4.0 initiative, the customer primarily wished to leverage IoT for maximizing operational efficiencies, productivity, reducing the energy footprints and maximizing capacity utilization. But there were several challenges at the outset:

Firstly, the customer had multiple assembly lines with a diverse set of machines, systems and sensors, all communicating on different protocols. As such, primarily they needed a partner who could connect diverse set of assets on to a single platform and make use of underutilized ‘dark’ data.

Secondly, the amount of data, data types and their applications was so vast, that the platform handling it, needed to be scalable and flexible.

Lastly, Varroc faced the typical challenge of innovating in ‘Brownfield’ markets – wherein the real bottleneck is in integrating IoT in tandem with both the new and legacy equipment without any further CAPEX for asset substitution.

The Solution

Altizon determined their IoT integration requirements and filled in their technology gap with Datonis®, a scalable cloud-based Industrial IoT Platform by Altizon. With OPC as the de-facto standard for connectivity, the data was pushed securely and seamlessly from the heterogeneous mix of assets and diverse OT data sources (PLC, Sensors, CNC controllers, Relays, HMIs, CSV etc.) across different locations & with disparate data, loggers using different protocols to OPC Server client. Datonis® would then process this data in real-time using an OPC client (agent) which read the data stored in the format of tags in OPC server client. Within a few weeks of deployment, machines and systems began streaming real-time data to Datonis® as a centralized platform. And the output of these configured tags from OPC UA was utilized in near real-time or in a scheduled manner to provide insights into Overall Equipment Effectiveness (OEE) & Condition Based Monitoring (CBM). In addition to this existing machine data, HMI screen also enabled operators to log supplementary data (such as downtime codes) to further track downtime pockets, improve uptime & calculate the “mean time to resolve”. Datonis® provided for a complete integration with modern web and mobile applications using a comprehensive set of REST APIs. This meant that the customer could inject production data into their ERP systems (case in point SAP) as well as build applications that would present this data in the most suitable manner on any device. As such minimal change management was required & there was no interference in existing work process of Operators. Further Datonis® provides a flexible pricing model which means that the customer only pays for machines connected. This offered a lot of flexibility with no up-front investment required for the platform. Datonis® also provides an uptime SLA so the data is always processed and the system is always available.

Data Collected
Overall Equipment Effectiveness, Throughput Per Machine, Condition Based Monitoring
Operational Impact
  • [Data Management - Real Time Data]
    Centralized Machine Data – By connecting and pushing the data from heterogeneous machines (like Honing, Press, Injection molding, Hobbing, Pick & Place, Testing machines etc.) at shop floor, Altizon provided for a centralized platform – a single source of truth for all Operational metrics of Machine Utilization, Performance, Quality, Condition Monitoring and Energy Consumption in real time. Machine data analysis reports are now available anywhere and at any time. And with a connected shop floor, Varroc could use different monitoring tools it needs to immediately see inefficiencies and identify bottlenecks in real time.
  • [Efficiency Improvement - Energy]
    Energy Monitoring – Energy meters were connected to consumption monitoring at machine, cell and plant level. It served to manage energy requirements for current operations and future scale up.
  • [Data Management - Data Integration]
    SAP Integration – Integration with their existing ERP systems like SAP led to advanced insights on Inventory Planning and Lean Manufacturing programs.
Quantitative Benefit
  • Monitoring & Maximizing Line Efficiency – OEE (Overall Equipment Effectiveness), OPE (Overall Process Effectiveness), Production Variance, Accurate Idle time pockets & Reasoning could now be monitored at the cell, machine and/or plant levels in near real time. Providing Production Visibility and Machine Efficiency across assembly lines allowed decision makers to monitor progress at a plant level and drill down into specific machines whenever needed. Due to the reduction in shifts, OEE has seen a considerable improvement which has led to an almost 20% increase in Operational Efficiency and 10% reduction in direct running costs of the machine (including labor and energy) Insights into real-time OEE and downtime, have also reduced the number of people employed in data entry of these metrics. The indirect manpower reduction has helped to the tune of 20% increase in Manpower Efficiency.

  • Condition Monitoring – Systematic processes (alerts & notifications) could be created to identify the Idle time pockets that can now never be missed. Alerts triggered as per escalation plan based on business process requirements. Further Condition monitoring and a tool health dashboard ensured that the tool consumption and inventory were reduced by 2% leading to a direct reduction in TOOLS and SPARES cost.

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