From smartphones and wearables to smart home devices and gaming hardware — high-density, cost-efficient PCBs engineered for fast time-to-market and high-volume production.
Consumer electronics demands miniaturisation, rapid iteration and cost discipline. We support all three.
High-frequency RF boards on Rogers laminates for 77 GHz forward collision, lane departure and autonomous driving sensor fusion.
Heavy copper BMS boards for cell monitoring, thermal management and charge control in hybrid and full-electric vehicles.
High-temperature multilayer boards for ECU and TCU operating near the engine bay from -40°C to +150°C.
HDI multilayer boards for in-vehicle displays, connectivity, navigation and digital cluster platforms.
IPC Class 3 boards for ABS, ESP, airbag control and active suspension — zero tolerance for in-field failure.
Standard multilayer PCBs for door locks, window controls, lighting automation and central body electronics.
Metal-core and aluminium PCBs for matrix LED headlights and adaptive lighting systems.
Robust multilayer PCBs for climate control, seat adjustment and ambient environment management.
Consumer products demand engineering compromises that industrial electronics never face — cost pressure, extreme miniaturisation and ultra-fast development cycles at the same time.
Modern smartphones pack more computing power than a server rack from ten years ago — into a board thinner than 1 mm. Any-layer HDI, stacked microvias and component pitches below 0.3 mm are now baseline requirements, not advanced features.
any-layer HDI · 2.5/2.5 mil · 0.3mm pitch BGAConsumer product cycles run 6–12 months from concept to retail. Your PCB supplier cannot be a bottleneck. 48-hour express prototypes for engineering validation, fast DFM turnaround and a supplier who communicates in your time zone are non-negotiable.
48h prototype · fast DFM · English supportConsumer electronics budgets leave no room for over-engineering — but field failures drive negative reviews and warranty costs that dwarf the PCB saving. Getting the stackup, DFM and surface finish right the first time is the only cost-efficient approach.
first-pass yield · DFM included · no reworkConsumer electronics spans the full range of PCB technologies — from ultra-thin flex to high-speed multilayer.
Our most advanced HDI capability — stacked and staggered microvias on any layer, minimum 2.5/2.5 mil trace/space. The board technology behind the thinnest and most powerful consumer devices on the market.
Ultra-thin polyimide flex and rigid-flex circuits for wearable devices that must bend, fold or conform to curved surfaces. Dynamic flex capability for products with moving hinges or foldable displays.
Controlled impedance multilayer boards for DDR5, PCIe 5.0, Bluetooth and 5G RF paths in gaming and premium audio hardware. 100% TDR-verified impedance before shipment.
Every parameter below is verified against IATF 16949 and IPC-A-600 Class 3 requirements. Full test reports and material traceability ship with every order.
| Parameter | Automotive Grade | Status |
|---|---|---|
| Layer Count | 2 – 30 layers, any-layer HDI | Available |
| Min. Trace / Space | 2.5 / 2.5 mil | Available |
| Laser Via Diameter | 0.10 mm minimum | Available |
| Surface Finish | ENIG / ENEPIG / OSP / Immersion Ag | Available |
| Board Thickness | 0.3 mm – 3.2 mm | Available |
| Controlled Impedance | ±5% tolerance, TDR verified | Available |
| Prototype Turnaround | 48 hours express / 5 days standard | Available |
| IPC Build Standard | Class 2 default, Class 3 on request | Available |
| Compliance | CE / FCC / RoHS / REACH | Available |
Consumer electronics rework is expensive and schedule-killing. Our DFM review, controlled impedance and 100% AOI ensure your engineering sample arrives ready to test — not ready to rework.
Real automotive PCB challenges — and how we solved them.
Ultra-thin 6-layer rigid-flex for a flagship smartwatch. 0.6 mm board thickness, dynamic flex hinge region, ENIG finish on all contact areas, biocompatible solder mask.
98% first-pass yield on 50,000-unit volume run. Zero flex fractures reported through 18-month warranty period. On-time delivery on all 4 production releases.
Ultra-compact 4-layer HDI board for TWS earbuds, integrating Bluetooth SoC, ANC MEMS mic, touch sensor and PMIC in 12 mm × 8 mm board area.
Design fit production enclosure on first prototype build. 99.2% first-pass at production entry — no layout changes required between DVT and MP.
10-layer RF-optimised board handling Wi-Fi 6E, Zigbee, Z-Wave and Thread simultaneously. Required careful RF isolation and controlled impedance on antenna feed lines.
RF performance met specification at first spin. Product launched 6 weeks ahead of original schedule. Competitor benchmark showed 8 dB improvement in Wi-Fi sensitivity.
Automotive procurement teams need more than a PCB factory — they need a certified partner with documented processes, fast engineering response and the depth to solve problems before the production line.
48-hour express prototypes for engineering validation, 5-day standard for DVT. We don't add hidden charges — express is a standard service, not an exception.
Every order gets a DFM review — stackup, impedance, DRC, DFM and assembly considerations — returned within 8 hours. No extra charge, no opt-in required.
Any-layer HDI, stacked microvias, 2.5/2.5 mil trace/space — in-house. No outsourcing of critical HDI processes to a third-party job shop.
From 5-piece engineering samples to 500,000-unit production orders. DDP shipping to your manufacturing site in Europe, Americas or Asia.
Our consumer electronics PCB engineering team will review your design and return a full DFM report and quote within 8 working hours.
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