Electronic Product Design Services

Yalantis designs electronic products end-to-end for medical, industrial, and automotive teams. Concept validation, PCB layout, Rust firmware, cloud connectivity, and certification support all run through our in-house R&D lab.

Electronic Product Design Services
Years of experience 17+
Specialists on staff 400+
Hardware projects delivered 200+
In-house lab in Warsaw R&D

Our electronic design services

Our electronics design and product development services cover every stage of hardware development, from initial architecture through production-ready output. A single integrated team handles the full scope.

Standards our electronic design services follow

What sets our electronic design services apart

Three engineering principles shape how Yalantis approaches custom electronic design services. Together, they directly affect the reliability and time-to-market of every product we deliver.

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In-house R&D lab with full hardware capability

Our Warsaw R&D lab handles the complete electronic product design cycle in a single environment. Schematic capture and PCB layout happen in the same facility where prototypes are assembled and validation testing is performed. Because everything stays under one roof and one ISO 9001 quality system, turnaround between stages is measured in days rather than weeks, helping accelerate your development timeline.

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Rust as the default for safety-critical firmware

We choose Rust for embedded firmware in safety-critical applications because memory safety at compile time eliminates entire categories of runtime bugs common in C/C++ codebases. This means fewer defects reach the testing phase, which shortens validation cycles. For systems where C is required by certification standards, our firmware team maintains equal depth in Embedded C and C++.

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Compliance-first engineering from day one

We build design history files and risk analyses into every project from the start, alongside full traceability matrices. Whether your product falls under ISO 13485 for medical devices or IEC 62443 for industrial security, compliance is woven into the engineering workflow. The same applies to ISO 26262 for automotive safety. This approach means certification readiness is a natural outcome of the process, never a last-minute scramble.

Industries we serve with electronic product design

We specialize in electronic design services for sectors where compliance is mandatory and reliability defines the product, from consumer electronics to safety-critical medical devices.

Our electronic product design and development process

A structured, milestone-driven design process with built-in compliance checkpoints. Six stages take your product from a validated concept through volume production.

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Discovery and requirements engineering

Our process starts with a thorough discovery phase where we assess technical feasibility and define the project requirements, covering electrical, mechanical, environmental, and regulatory aspects of your product.

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Architecture and component selection

Next, we establish the system architecture and select active components with verified lifecycles, building a multi-source BOM strategy to protect against supply chain risk. Your engineering team joins us for architecture reviews where we validate decisions against IPC standards and your industry’s compliance requirements.

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PCB design and firmware development

With the architecture locked, PCB layout and firmware development move forward in parallel. Our designers and firmware engineers work side by side, so pin assignments and peripheral routing reflect real software requirements. Controlled impedance routing and mixed-signal isolation are reviewed against DFM rules specific to your chosen EMS partner.

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Prototyping and hardware bring-up

From there, we coordinate prototype fabrication through vetted partners and bring up the boards in our Warsaw lab. Firmware integration testing runs alongside hardware validation, and each rapid iteration is driven by real measurement results so issues surface early.

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Verification and pilot production

Once the prototype is stable, we run post-layout SI/PI simulation and thermal analysis, followed by EMC pre-compliance review. These verification steps identify remaining issues before certification. We then support first-article inspection and pilot production runs to confirm manufacturing readiness at scale.

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Certification support and production handoff

Finally, we deliver the complete manufacturing data package, including Gerbers, ODB++, IPC-2581, BOM, assembly drawings, and 3D STEP models. Our team coordinates directly with your EMS partner and supports regulatory submissions until your product clears FCC, CE, and any industry-specific certifications.

Real hardware. Real outcomes.

Every project here started with a specific engineering challenge and a regulated environment. The approach was the same each time: define what the hardware needs to do, then design and build the electronic system that delivers it.

Working prototype on target hardware

A scoped engagement that takes your product from validated concept to a functional prototype. We deliver a working demo unit with schematic, PCB layout, firmware running on target hardware, and basic cloud connectivity. This is a cost-effective prototype that proves the concept works and lets you test with real users or present to stakeholders.

 

Many proof-of-concept projects start on a Raspberry Pi Compute Module or an STM32 evaluation board before moving to custom silicon. Our electronic product design team handles the full build.

  • System architecture document and requirements specification
  • Schematic and PCB layout for the prototype board
  • Embedded firmware on target hardware (Rust or C/C++)
  • Basic cloud connectivity with device telemetry
  • Working demo unit assembled and tested in our lab
  • BOM with cost projections for production scaling
  • Regulatory pathway assessment for target certifications
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Tools and technologies we work with:

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How we work together

Time and materials

A flexible model for electronic product programs where the scope takes shape as the engineering work progresses. You can see exactly how the team spends its time and where the project stands. Most of our custom electronics design work runs this way.

 

Ideal for: Ongoing product development

Dedicated team

A full-time team of electronic designers and firmware engineers, with a project lead who works inside your development process. This suits companies running several hardware products at once, or a long R&D program that needs steady engineering capacity.

 

Ideal for: Multi-product R&D programs

Discovery phase

A short, fixed-price engagement that gives you a requirements spec, a system architecture, and a roadmap for the build. It’s a low-commitment way to get a clear scope and cost before you decide on full development.

 

Ideal for: New product validation

AI-powered team

A dedicated engineering team that works with enterprise AI tools to move faster. We use Enterprise versions only, so your design data and IP stay private. The tools take care of code review and test generation, which frees the engineers to focus on the harder design decisions.

 

Ideal for: Lower cost, faster delivery

Why companies choose Yalantis for custom electronic design services

Yalantis is a full-cycle electronic product design company. The same team that designs your PCB also writes the firmware and builds the cloud platform, which eliminates the integration gaps that slow hardware programs down.

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One team across hardware, firmware, and cloud

Pin assignments are shaped by real firmware requirements from the start, and cloud APIs match the data model running on the device. Because a single integrated team handles PCB layout and embedded software alongside backend services, your product avoids the handoff delays that fragment multi-vendor programs. The result is fewer miscommunications and a shorter path to a working system.

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Prototype to production without re-spin

We generate manufacturing-ready Gerbers and ODB++ files, along with assembly drawings and pick-and-place data. From there, we coordinate directly with vetted EMS partners to ensure your electronic product transitions from prototype to volume production without unnecessary redesign cycles. This continuity keeps your timeline intact and your costs predictable.

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Compliance expertise across regulated industries

Our electronic engineering services are built for sectors where certification is mandatory. Whether you need ISO 13485 for a medical device or IEC 62443 for an industrial controller, our team has built the documentation trail before. We bring the same depth to ISO 26262 for automotive ECUs, so your compliance package is ready when the auditors arrive.

Discuss your electronic product design project

Whether you need a proof-of-concept prototype or a full-cycle electronic hardware development program, our engineering team is ready to scope your project. We also offer design reviews for teams seeking a second opinion on existing hardware.

Related services

FAQ

  • What is included in electronic product design and development services?

    Our electronic product design services cover the full product lifecycle: requirements engineering, system architecture, schematic design, PCB layout, embedded firmware development (in Rust or C/C++), enclosure and mechanical design, prototyping, testing, certification support, and production handoff. For regulated industries, we also deliver design history files and compliance documentation. Cloud connectivity, device management dashboards, and OTA update infrastructure can all be included as part of the same engagement.

  • How long does it take to design a new electronic product?

    The timeline depends on product complexity. A proof-of-concept prototype built on a standard compute module typically moves faster than a full custom electronic product that requires custom PCB design, embedded firmware, cloud integration, and regulatory certification. Each project has its own scope, so timelines vary. Our structured milestone-driven process keeps timelines predictable throughout. Contact our team with your project details and we will provide a tailored estimate.

  • What certifications and standards do you design to?

    Yalantis maintains ISO 13485 for medical devices and ISO/IEC 27001 for information security, alongside ISO 27701 for privacy management and ISO 9001 for quality. On the design side, our electronic product workflows support FDA 510(k) submissions (21 CFR 820), IEC 60601 and IEC 62304 for medical devices, IEC 62443 for industrial cybersecurity, and ISO 26262 for automotive functional safety. All PCB designs follow IPC-2221 and IPC-A-610, as well as IPC-6012 quality standards.

  • Do you provide custom electronic design services or work from existing specifications?

    We do both. Many projects start from scratch with a blank requirements document, and we guide them through architecture and design into production. We also regularly take on projects where an existing specification or schematic needs to be re-engineered, improved, or prepared for a new compliance standard. Our team can work from existing Gerbers or reference designs to deliver an updated, manufacturing-ready product.

  • What engagement models do you offer, and how flexible are they?

    Electronic design services cover the engineering and development phase, which includes requirements, architecture, schematic capture, PCB layout, and firmware work through testing and certification. EMS providers handle the physical manufacturing side: PCB fabrication and component sourcing, followed by assembly and quality inspection. Yalantis is an electronic product design company focused on the engineering side. We generate production-ready manufacturing packages and coordinate with vetted EMS partners to ensure a smooth transition into production.

  • How do you handle secure firmware updates (OTA) for electronic products?

    We implement OTA firmware update infrastructure as part of our electronic product design services. This includes secure boot chain verification, signed firmware packages, encrypted transport (TLS), A/B partition failover to prevent bricked devices, and rollback capability. Our Rust-based firmware stacks provide memory-safe OTA implementations. The update pipeline integrates with AWS IoT Core or Azure IoT Hub for fleet-wide deployment management and monitoring.

  • What does your prototyping and validation workflow look like?

    Our Warsaw R&D lab handles prototype assembly, hardware bring-up, and validation testing. We run signal integrity and power integrity measurements, thermal profiling, and EMC pre-compliance testing on every prototype. Firmware integration testing runs in parallel with hardware validation. Design iterations are driven by real measurement data, which reduces re-spin risk and accelerates your path to production.

  • Which regulatory and compliance frameworks do your designs support?

    Compliance is integrated into our electronic product design process from the discovery phase. We build design history files and risk analyses into the workflow from day one, and traceability matrices grow alongside the design. For medical devices, we follow ISO 13485 and IEC 60601. For industrial products, we design to IEC 62443 security requirements. For automotive applications, we follow ISO 26262 functional safety standards. Every design includes the documentation packages required for regulatory submissions.

  • What’s the best way to scope an electronic product design project with Yalantis?

    The simplest way is to request a consultation through our contact form. Share your product concept and target industry, along with any existing documentation you have. Our engineering team will review the scope and schedule an introductory call to discuss technical requirements and timeline. For teams that want to validate an idea before committing to full development, our proof-of-concept engagement delivers a working prototype scoped to your requirements.

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