Core R&D & Hardware
Schematic design, PCB layout & hardware integration
Firmware, HW-SW integration & board designs
Embedded firmware design, RTOS & communication stacks
CAD drafting, structural simulation & prototype
Custom application design, embedded & full-stack
Advanced Design & Systems
End-to-end product design & development lifecycles
Concept modeling, reverse engineering & 3D drafting
ECU firmware & custom AUTOSAR designs
Smarter industrial control pipelines
Unifying information & advanced analytics
Hybrid cloud architectures & industrial migrations
Predictive & prescriptive data insights
Seamless API & middleware connectivity
Testing, Quality & Mfg
Rigorous embedded product testing & pre-compliance
Root cause analysis, safety & environmental tests
Finite element modeling, stress & thermal CFD analysis
Systematic change orders & version control
SPM design, tooling, fixtures & process engineering
Functional, automation & automotive validations
Microcontrollers & Boards
Foundational MCU kits & system modules
Classic 8-bit architecture & lab kits
Robust PIC microcontroller designs
Linux-based SBC prototyping & IoT
Rapid prototyping & open-source boards
Efficient 8-bit AVR development kits
Advanced 32-bit controller designs
Wireless & Communication
Mobile-controlled embedded systems
SIM-based alert & remote telemetry
Environmental, motion & industrial sensing
Short-range wireless mesh networks
Location tracking & navigation systems
Contactless identification & RF links
Tone-based remote control via telephone
Long-range data transmission & protocols
UAVs, motor kinematics & motion automation
Electronics & Instrumentation
ECE design concepts & hardware development ideas
Renewable energy harvesting & charging
Logic gates, FPGAs & digital circuits
50+ electronics and communication project ideas
50+ electrical engineering project ideas
Quick-build kits for students & labs
Industrial sensors & process calibration
Ladder logic & SCADA instrumentation
Automation & Embedded
Master PLC programming, HMI & SCADA
Master embedded microcontroller systems & C firmware
Complete hands-on connected device skilling
Govt endorsed connected systems training
Tailored corporate and industrial training programs
Automotive & Special Tools
Core BSW, RTE, and MCAL static embedded software design
POSIX, SOME/IP, C++ dynamic autonomous vehicle computing
Safety-critical automated testing verification
Building Management Systems & Niagara automation
Master labVIEW programming & test instrumentation
Modern Software & Power
Utilize our IIoT Architecture Consultancy services to create the ideal basis for your journey toward digital transformation. We have worked with numerous clients all over the world to customise their IIoT platforms to meet their demands.
IIoT is currently very popular. The adoption and application of IIoT tools and technologies in the manufacturing sector hold real promise, despite the noise and hype. IIoT applications are being used by industry verticals such as process, factory, power & utilities, and building automation. These applications aid in supply chain management, asset management, predictive maintenance, remote monitoring, operational efficiency, and well-informed decision making. The predictive maintenance of industrial assets is one specific area where IIoT is becoming more and more popular. Businesses can take prompt corrective action by predicting device problems before they arise through data analysis from a variety of industrial devices.
The performance, productivity, and quality of industrial processes and products are improved by an IIoT platform. A thoughtfully conceived, well-designed, developed, and implemented IIoT platform has many advantages. A selection are listed below.
IIoT facilitates the unification of various networks, IT infrastructure, and industrial sensors/systems on a single platform.
IIoT enables the central collection and archiving of field data by integrating dispersed devices, PLCs, and sensors with a cloud platform.
Tools, equipment, and other industrial assets are tracked and tagged using sensors and trackers. These assets send their data to an IIoT platform, which aids in product traceability and keeps track of the assets' movements.
Remote debugging is made possible by IIoT. To monitor performance and look for early indications of equipment malfunction, technicians and operators in remote plants can examine the data transmitted from assets and machines.
Javelin is an extremely reliable and scalable IIoT platform created by Technologics Global that connects field equipment and other industrial assets to produce sophisticated analytics and visualization. Javelin acts as an accelerator to create the ultimate IIoT platform based on the specific requirements and needs of the client. The IIoT accelerator's salient characteristics are:
The following kinds of applications are just a few of the OEMs and industries for which Javelin has been customized: astute asset administration Efficiency of operations and analysis Analysis and optimization of energy Remote observation and analysis condition observation predictive as well as prescriptive maintenance
Our depth of OT knowledge is visible in Javelin, our IIoT platform accelerator; several man-years of technical and domain know-how have been invested into Javelin; several OEMs and industries use a customized and private label version of Javelin. We have institutionalized the industry and domain learnings, which help us to create products that understand the plant floor scenarios. We use IT and OT technologies seamlessly when building a product.
We don't begin from scratch when you hire us to develop your IIoT platform. We begin with years of technical and domain expertise, without undervaluing the field-tested modules. Most of the time is spent tailoring this platform to meet your needs. In the industrial world, we are a leading IIoT architecture consulting firm. Among our many services are the following:
IIoT facilitates the unification of various networks, IT infrastructure, and industrial sensors/systems on a single platform.
IIoT enables the central collection and archiving of field data by integrating dispersed devices, PLCs, and sensors with a cloud platform.
Tools, equipment, and other industrial assets are tracked and tagged using sensors and trackers. These assets send their data to an IIoT platform, which aids in product traceability and keeps track of the assets' movements.
Remote debugging is made possible by IIoT. To monitor performance and look for early indications of equipment malfunction, technicians and operators in remote plants can examine the data transmitted from assets and machines.
Javelin is an extremely reliable and scalable IIoT platform created by Technologics Global that connects field equipment and other industrial assets to produce sophisticated analytics and visualization. Javelin acts as an accelerator to create the ultimate IIoT platform based on the specific requirements and needs of the client. The IIoT accelerator's salient characteristics are: Plugin-based design.
Unlock the future with us – Contact us now for a world of possibilities!