Embedded Engineering

Technological transformations in the industry have resulted in the evolution of electrical engineering, making the electrical circuitry in equipment increasingly complex. Whether you are planning to develop or optimize electronic equipment, design new electrical systems, automate industrial processes, or meet project management goals, Vee Technologies can help you achieve your goals. We provide end-to-end solutions across multiple industries including heavy engineering, aerospace, utilities, transportation, energy and resources. Our engineers possess deep experience in electrical engineering and efficiently support the development of systems, which are compatible with low, medium, as well as high voltage applications.

Offering versatile services for electrical engineering and embedded systems, we provide the following services:

Electrical design services to increase design productivity
Electrical instrumentation services to increase asset performance, integrity and meet maintenance objectives
Electrical schematic drawings
Panel layout drawings
Electrical 2D drafting
Electronic circuit design
Control system architecture
Filed instrument location

Our designers and engineers have the expertise to design intuitive and robust solutions to tackle any kind of electrical challenge. We also provide assistance with Printed Circuit Board (PCB) layouts, where our engineers will help with schematic capture, PCB layouts, PCB designs, etc. From electrical gear updates to complete electrical plant control systems, we have the required knowledge base, skill sets, and the experience to fulfill your small and large electrical engineering needs.

Services

Firmware Development
IoT Connectivity
Edge Intelligence
Product Integration
Hardware & PCB Design
End-to-End VLSI & IC Design Solutions
Embedded Systems Testing & Prototype Development

Embedded software design is one of the crucial parts of embedded systems development. Poorly designed software will increase the application’s vulnerability to failure. Quality design and stringent testing result in embedded software platforms aid in business growth and profitability.

Explore More

Engineering Secure, Scalable IoT Connectivity for Enterprise and Industrial Systems: IoT programs today are no longer limited by device innovation alone.

Explore More

Engineering Intelligence Where Decisions Must Happen Modern engineering systems increasingly operate at the point of action—on factory floors, inside vehicles, across energy assets, and within distributed infrastructure where control, monitoring, and decision latency directly affect system performance.

Explore More

De risking Complex Systems Through End to End Product Integration: Modern products are no longer defined solely by individual components, but by how tightly coupled subsystems behave under integrated operating conditions.

Explore More

Increased processing power, higher levels of integration and shrinking components have all contributed to the rapid evolution of modern-day electronic device designs. Planning the hardware configuration, capturing schematics, as well as identifying and assembling all of the right components are essential to develop functional devices.

Explore More

Engineering Complete Semiconductor Designs—From Architecture to Tape Out: Semiconductor design programs increasingly contend with advanced-node process variability, tighter power-performance envelopes, and compressed tape-out schedules that amplify cross-stage design dependencies.

Explore More

Today’s competitive market requires a deep understanding of the target audience, necessary attention to what might have been overlooked, and the ability for a business to create a new market for their offerings. For embedded systems testing, this can be achieved through prototype development.

Explore More

Digital Engineering

Mechanical Engineering

Aftermarket Engineering