PCB Designing
At SRQ Robotics, we specialize in delivering high-quality Printed Circuit Board (PCB) design solutions for a wide range of industries. Our experienced engineers use the latest tools and best practices to ensure every PCB meets the highest standards of reliability, performance, and safety.
PCB Designs
We design high-quality, reliable printed circuit boards (PCBs) tailored to your specific requirements
Component Selection
Schematic Designing
Multi-Layer PCB Designing
Prototyping
Testing & Debugging
Component Selection
Schematic Designing
Multi-Layer PCB Designing
Prototyping
Testing & Debugging
From schematic to fabrication-ready files
We own the entire hardware design flow, so nothing is lost between disciplines:
- Schematic capture & component selection – we capture the circuit and choose parts for performance, lifecycle and availability, steering you away from obsolete or single-source components and flagging long-lead items before they stall your build.
- Multi-layer & HDI stackups – 2 to 12+ layer designs with blind, buried and laser-drilled micro vias, via-in-pad with epoxy fill and clean fan-out from fine-pitch BGA packages down to 0.4 mm pitch.
- High-speed & RF layout – controlled-impedance routing, length-matched differential pairs for USB, Ethernet and MIPI, and 50 Ω impedance-matched RF front-ends with disciplined ground stitching and return-path management.
- Power & thermal design – careful power-plane partitioning, decoupling networks, star-grounding on mixed-signal boards, and copper pours with thermal vias for high-current, heat-generating components.
- Design for Manufacture & Assembly (DFM/DFA) – every board is checked against your fabricator’s capability stack and reflow profile, so what we ship is exactly what they can build at the yield you need.
We engineer the hard boards other vendors avoid
Dense, high-speed and analog-sensitive boards are where most freelancers and template shops fall down. Our engineers routinely route 0.4 mm-pitch BGAs with via-in-pad, build controlled-impedance stackups around a fabricator’s specific prepreg and core materials, and tame EMI on boards that mix noisy switching regulators with microvolt sensor signals.
We run full design-rule (DRC) and electrical-rule (ERC) checks, signal-integrity reviews and impedance calculations before release — not after the prototypes come back. Designs are produced in industry-standard EDA tools and delivered in whatever format your supply chain expects. And because the same team also writes the firmware and designs the surrounding electronics, we lay out every board with the whole system in mind: connector placement, test points, debug headers and bring-up are all considered up front.
Tools & technologies
- Altium Designer, KiCad & EasyEDA
- Multi-layer & HDI stackups
- Controlled-impedance & RF design
- Gerber, ODB++ & IPC outputs
- DFM/DFA with DRC/ERC checks
- SPICE-level circuit verification
Industries we design for
- Pro-audio
- Consumer hardware
- Agritech, robotics and drones
- Medical, fitness and wearable devices
- Industrial controllers and factory automation
- Automotive and e-mobility electronics
We engineer the hard boards other vendors avoid
Dense, high-speed and analog-sensitive boards are where most freelancers and template shops fall down. Our engineers routinely route 0.4 mm-pitch BGAs with via-in-pad, build controlled-impedance stackups around a fabricator’s specific prepreg and core materials, and tame EMI on boards that mix noisy switching regulators with microvolt sensor signals.
We run full design-rule (DRC) and electrical-rule (ERC) checks, signal-integrity reviews and impedance calculations before release — not after the prototypes come back. Designs are produced in industry-standard EDA tools and delivered in whatever format your supply chain expects. And because the same team also writes the firmware and designs the surrounding electronics, we lay out every board with the whole system in mind: connector placement, test points, debug headers and bring-up are all considered up front.
Frequently Asked Questions
What is the typical timeline for a project?
The project timeline depends on its complexity and scope. Here’s a general breakdown of our process:
- Requirement Analysis and Documentation: 2-4 days
- Sensor Selection and Circuit Design: 4-10 days
- Prototype Manufacturing: 10-14 days
- Prototype Testing and Validation: 2-3 days
- Firmware Development: Timeline varies based on complexity
Can you assist with selecting the right sensors for my project?
Absolutely! We carefully analyze your project requirements and recommend the most suitable sensors for optimal performance.
Do you offer PCB design services?
Yes, we design custom PCBs tailored to your project’s specifications and ensure compatibility with the overall system.
How do you ensure the quality of the prototype?
We perform comprehensive testing and validation to ensure the prototype meets all functional and quality standards before delivery.
Do you develop firmware for custom projects?
Yes, our engineers specialize in firmware development. The duration and scope depend on your project’s requirements and complexity.
Can you integrate IoT features into my design?
Yes, we have extensive experience in IoT and embedded systems. We can design and implement IoT-enabled solutions for your projects.
How do I get started?
Simply contact us with your project idea or requirements. Our team will collaborate with you to analyze, document, and kickstart the design process.