Embedded Systems, Sensors & Electronics Competencies

nnovation only creates value when it can be executed. At Therkildsen Development, we combine creative thinking with deep technical expertise to transform ideas into reliable, production-ready solutions. Our competencies span the entire development process—from early concept development and mathematical modeling to electronics design, software development, prototyping, and production startup.

We work hands-on with complex challenges and unconventional requirements, acting as a pragmatic and committed development partner. Whether supporting internal R&D teams or driving full product development for startups, we focus on building solutions that are technically sound, scalable, and ready for real-world use.

Technical expertise & technological foundation

We combine deep technical expertise with practical experience in bringing products from concept to production. Our work is rooted in proven processes, a solid technological foundation, and a strong focus on delivering solutions that can be implemented in practice.

Areas of expertice

Hardware development

Designing and developing high-quality, scalable electronic hardware systems, including PCB layout, schematics, and component selection for industrial and consumer products.

  • Design scalable, reliable electronics systems.

  • Create optimized schematics and PCB layouts.

  • Test and validate for performance and longevity.

Software development

Creating reliable embedded software, firmware, and application-level solutions that integrate seamlessly with custom hardware platforms.

  • Develop embedded firmware and applications.

  • Ensure seamless hardware-software integration.

  • Test iteratively for stability and reliability.

Mathematical modelling

Applying advanced mathematical modeling and simulation to optimize electronics, software, and system performance before prototyping or production.

  • Simulate system behavior to validate concepts.

  • Optimize performance through data-driven insights.

  • Reduce risk before prototyping.

Electronics prototype production

Transforming innovative ideas into fully functional electronics prototypes, enabling iterative testing, validation, and rapid concept development.

  • Turn ideas into functional prototypes.

  • Refine designs through iterative testing.

  • Identify issues early to save time and cost.

Idea generation

Generating creative, technically feasible concepts for new products, combining engineering knowledge with practical innovation strategies.

  • Explore creative, technically feasible concepts.

  • Combine innovation with engineering expertise.

  • Translate ideas into actionable plans.

Production start-up

 Managing the transition from prototype to full-scale production, including supplier selection, quality assurance, and manufacturing optimization.

  • Manage suppliers and quality control.

  • Ensure smooth ramp-up to full production.

  • Optimize cost and efficiency.

Price optimization

 Managing the transition from prototype to full-scale production, including supplier selection, quality assurance, and manufacturing optimization.

  • Assess components and production costs early.

  • Identify cost-saving opportunities.

  • Implement design-for-manufacturing strategies.

A solid technical foundation

Bluetooth Low Energy (BLE)

Implementing BLE wireless solutions for IoT devices, sensors, and connected electronics, ensuring low-power, reliable communication.

  • Enable low-power, reliable wireless communication.

  • Integrate BLE with hardware and software systems.

  • Optimize connectivity for real-world use.

Advanced sensor technology

Integrating and calibrating advanced sensors for precise data acquisition in electronics, automation, and industrial measurement applications.

  • Integrate and calibrate high-precision sensors.

  • Ensure accurate and repeatable measurements.

  • Process sensor data effectively.

Embedded Linux

Developing embedded Linux solutions, including kernel customization, driver development, and system integration for high-performance electronics systems.

  • Customize embedded Linux systems.

  • Develop drivers and application software.

  • Ensure scalable, stable system performance.

Optics

Designing optical systems for measurement, imaging, and detection applications, optimizing precision and reliability in electronics and scientific devices.

  • Design precise optical systems.

  • Align and test components for reliability.

  • Integrate optics with electronics and software.

Photoacoustics

Engineering photoacoustic systems that convert light-induced acoustic signals into actionable data for industrial, scientific, and medical applications.

  • Build systems converting light to acoustic signals.

  • Develop sensors and signal processing.

  • Validate performance in industrial/scientific use.

Air analysis

Building air quality and gas analysis solutions with accurate sensor integration, calibration, and data processing for industrial and environmental monitoring.

  • Integrate sensors for air and gas monitoring.

  • Calibrate and process measurement data.

  • Deliver turnkey, reliable solutions.

Engine control

Designing and implementing high-precision engine control systems with embedded algorithms, real-time feedback, and performance optimization for automation and robotics.

  • Develop embedded motor control algorithms.

  • Integrate real-time feedback for precision.

  • Test systems for efficiency and stability.

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