Hardware engineering
From groundbreaking technology to life-changing inventions, our expert engineers build the foundation of progress.
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
Neural networks, smart models & big analytics
Master ETAP power system design & transient analysis
Enterprise web apps & backend logic
Register for hands-on industrial internship programs
Request official training & internship certificates
From groundbreaking technology to life-changing inventions, our expert engineers build the foundation of progress.
Because of the ongoing adoption of Industry 4.0, embedded systems now play an important role in the industrial landscape. The requirement for increased processing power, reliability, a smaller form factor, and higher levels of integration with other assets in the ecosystem has aided in the rapid technological transformation of modern-day industrial devices, from sensors to the OT/IT edge. Several steps are involved in the design and development of embedded hardware such as sensors, field devices, controllers, edge devices, and gateways.A typical embedded hardware design services process includes the following steps:
Designing a schematic
Material completion
PCB layout
Prototyping
Production assistance
Services for FPGA (Field Programmable Gate Arrays) design based on client specifications and requirements
As robotics, computer vision, protocol simulators, and other technologies advance, the demand for hardware engineering services grows. The widespread development is also due to the fact that embedded systems provide numerous benefits to industries. Warranty analysis and prediction can benefit from hardware engineering services. It also allows for the re-engineering of existing products in order to improve their production, quality, and performance. Effective hardware engineering services improve product maintenance, which increases equipment lifetime and lowers operational costs.
The equipment and machines used on the production floor are subjected to adverse conditions. However, because the embedded systems are sealed, they are protected from dust, grime, rust, moisture, and other particles that could cause damage to their components. As a result, these systems typically last.
Technologics Global has been working on the latest trends in the embedded hardware design services field for over a decade, including developing process instruments, industrial systems, field devices, handheld devices, protocol simulators, automotive systems, and so on. We are best suited for designing electronics devices of any complexity because we have a highly equipped multidisciplinary team and a rich partnership ecosystem.
We have the experience and expertise to handle system-level embedded hardware design solutions, Protocol Simulator, and enterprise-level hardware design services. We use the best technologies to provide custom hardware services for your business. We are a niche product engineering firm that provides end-to-end hardware engineering and hardware certification services.
Contact us if you are looking for a tech partner to work closely with your team to build vcustom embedded systems from the ground up or re-engineer your current production process using embedded solutions.
Unlock the future with us – Contact us now for a world of possibilities!