Electronic System Development

At ITOM, we specialize in circuit design and embedded systems development, enhanced by machine learning technologies.
Our expertise spans general-purpose electronic platforms with a dedicated focus on radar systems for ADAS and active safety.
We deliver customized solutions for signal processing, sensor fusion, and intelligent decision-making.

Hardware Design for Vehicle Systems

At ITOM Engineering, our hardware design capabilities support a wide range of vehicle systems—from radar and sensor modules to control units. We engineer for performance, integration, and long-term reliability across automotive environments.

  • Automotive-Grade Engineering: Our designs meet the rigorous demands of vehicle operation, including vibration, thermal cycling, EMI resilience, and harsh environmental exposure.
  • System-Level Integration: We develop compact, modular hardware architectures that combine sensing, processing, and communication elements—streamlining installation across vehicle domains such as exterior sensing, in-cabin monitoring, and drivetrain control.
  • Thermal and Mechanical Optimization: Advanced thermal management and mechanical design practices ensure stable operation of high-power components, extending system lifespan and maintaining performance under load.
  • Manufacturing and Scalability: We prioritize manufacturability, serviceability, and cost-efficiency—supporting high-volume production and seamless integration into OEM platforms.
  • Cross-Disciplinary Collaboration: Our hardware development is driven by close coordination between RF, embedded software, mechanical, and compliance teams—ensuring each product meets functional, safety, and regulatory requirements.

Embedded System Development

At ITOM Engineering, our embedded system development capabilities span a wide range of applications—from sensor integration and control units to real-time data processing and connectivity modules. We design software and firmware that meet the rigorous demands of modern vehicles and industrial systems, with a focus on safety, scalability, and long-term maintainability.

  • Real-Time Software Architecture: We develop embedded software optimized for deterministic performance, supporting time-critical functions such as signal acquisition, actuator control, and system monitoring across automotive and industrial platforms.
  • Robust Development Practices: Our workflows include structured code reviews, version control, and automated testing pipelines to ensure reliability, traceability, and compliance with industry standards such as ISO 26262 and MISRA-C guidelines.
  • System-Level Monitoring and Diagnostics: We implement tools and frameworks for runtime monitoring of key performance metrics—such as memory usage, CPU load, and task scheduling—to maintain system stability and enable predictive diagnostics.
  • Connectivity and Communication Protocols: Our embedded platforms support a wide range of interfaces including CAN, LIN, Ethernet, and wireless protocols, enabling seamless integration with vehicle networks and external systems.
  • AI and Signal Processing Integration: We incorporate advanced algorithms for data interpretation, object recognition, and predictive control—enhancing system intelligence in applications ranging from ADAS to in-cabin monitoring and industrial automation.
  • Safety and Compliance: All development activities are aligned with functional safety requirements, and our cross-disciplinary teams collaborate to implement fault-tolerant mechanisms and ensure compliance with global regulatory frameworks.

From prototype to production, ITOM delivers embedded solutions that are engineered for performance, reliability, and future scalability.

RF & Antena Design

At ITOM Engineering, our RF and antenna design capabilities are built on a foundation of high-frequency engineering, simulation-driven optimization, and system-level integration. Operating primarily within the 60–81 GHz band, our solutions support advanced radar applications across automotive, industrial, and safety-critical domains.

  • High-Frequency Design Expertise
    We apply advanced electromagnetic theory and precision engineering to develop RF modules that meet the stringent demands of modern radar systems. Our designs target key applications such as ADAS, blind spot detection, in-cabin monitoring, and industrial sensing—delivering high gain, low sidelobe, and space-efficient antenna architectures.
  • Diverse Antenna Architectures
    Our portfolio includes patch, array, waveguide, and custom antenna configurations, each tailored to specific range and performance requirements. Whether for short-range occupant detection or long-range environmental sensing, we engineer antennas for optimal integration and signal fidelity.
  • Simulation-Driven Optimization
    Using CST Studio Suite, we model and refine antenna geometry, radiation patterns, return loss, and S-parameters with sub-millimeter precision. This simulation-first approach ensures consistent performance across operating conditions and enables rapid iteration during development.
  • Validation, Integration & Reliability
    Every RF module undergoes rigorous testing for thermal management, mechanical tolerances, and environmental resilience. Our team supports full-cycle prototyping, lab characterization, and system-level integration—ensuring compliance with electromagnetic compatibility (EMC) standards and production readiness.
  • Cross-Disciplinary Collaboration
    RF design at ITOM is never isolated. We work closely with hardware, embedded software, and mechanical teams to ensure seamless integration and functional alignment. This holistic approach results in compact, high-performance radar modules trusted by OEMs and Tier 1 suppliers across multiple sectors.