Precision High-Speed PCB Design | 5+ Years DDR/MIPI/CAN | Germany-Based

🔹 High-Speed PCB Design • DDR2 • MIPI • Industrial Electronics • Germany

High-Speed PCB Design
Expert Engineer Based in Germany

High-Speed PCB Design specialist with 5+ years of experience in multilayer boards (4-8 layers), DDR2 routing, MIPI interfaces (DSI/CSI 4-lane), USB 3.0, and industrial electronics. I deliver reliable hardware solutions for automotive and IoT applications across the EU market.

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HIGH-SPEED PCB DESIGN EXPERT · Germany · 5+ Years

SPECIALIZATION

High-Speed PCB Design DDR2 Routing MIPI DSI/CSI 4-lane USB 2.0/3.0 Ethernet 10/100/1000

HIGH-SPEED INTERFACES

DDR2-400 MIPI (4-lane) RMII/RGMII SDIO eMMC (<50MHz)

INDUSTRIAL & AUTOMOTIVE

CAN (ISO‑11898) RS485 LIN SPI I²C

TOOLS

Altium · KiCad · HyperLynx · Sigrity · LTspice

PLATFORMS

STM32 · ESP32-P4 · RK3328 · MT7628 · AVR

High-Speed PCB Design Expertise

Specialized in High-Speed PCB Design for automotive, industrial, and IoT applications. Based in Germany, serving the EU market.

As a High-Speed PCB Design engineer, I specialize in multilayer boards (4-8 layers) with controlled impedance, signal integrity analysis, and power integrity optimization. My High-Speed PCB Design expertise includes DDR2-400 fly-by topology, MIPI differential pairs (100Ω) for 4-lane DSI/CSI, USB 2.0/3.0, and Ethernet RMII/RGMII interfaces.

Every High-Speed PCB Design project undergoes thorough SI/PI simulation using HyperLynx and Sigrity, ensuring first-pass success. I’ve completed over 50 High-Speed PCB Design projects for clients across Germany and the EU, including automotive BMS systems, industrial gateways, and AI-enabled edge devices based on ESP32-P4 with MIPI interfaces.

Core expertise ▸ DDR2, MIPI, USB, Ethernet, CAN

Stackup ▸ 4-8 layers, controlled impedance

Tools ▸ Altium, HyperLynx, Sigrity

50+High-Speed PCB Designs

4-8 LayersMultilayer Expertise

5+ YearsIndustry Experience

GermanyEU Market Focus

High-Speed PCB Design Capabilities

Comprehensive High-Speed PCB Design services for complex embedded systems.

High-Speed PCB Design for DDR2, MIPI & USB

DDR2 Memory Routing

Expert in High-Speed PCB Design for DDR2-400. Fly-by topology, length matching, T-junction termination, and impedance control (40-60Ω). Full SI analysis for signal integrity.

MIPI Interface Design

Specialized High-Speed PCB Design for MIPI DSI (display) and MIPI CSI (camera) interfaces. 4-lane differential routing with 100Ω impedance, intra-pair skew control, and EMI mitigation techniques. Experience with ESP32-P4 MIPI implementation.

USB & Ethernet Layout

Proven High-Speed PCB Design for USB 2.0/3.0 (90Ω differential) and Ethernet RMII/RGMII (100Ω). Controlled impedance routing, via optimization, and ESD protection integration.

Industrial & Automotive High-Speed PCB Design

CAN & RS485 Integration

High-Speed PCB Design for industrial communication including ISO-CAN (11898), RS485, and LIN. Isolated interfaces, common-mode filtering, and EMC/EMI compliant layouts for automotive environments.

Power Integrity (SI/PI)

Comprehensive SI/PI analysis for every High-Speed PCB Design. PDN impedance analysis, decoupling capacitor optimization, IR drop analysis, and crosstalk mitigation using HyperLynx and Sigrity.

High-Speed PCB Design Projects

Real-world High-Speed PCB Design examples for industrial and automotive clients.

Recent High-Speed PCB Design Work

MT7628 Gateway

6-layer · High-Speed

Stackup: 6-layer · 1.6mm · FR4 · 50Ω/90Ω impedance

Memory: DDR2-400 · Fly-by topology

DDR2 RMII USB 2.0 SDIO CAN

High-Speed PCB Design for industrial gateway with MT7628, 4x LAN, and ISO-CAN. Full SI/PI validation with HyperLynx.

ESP32-P4 AI Platform

6-layer · MIPI

Stackup: 6-layer · 1.0mm HDI · 50Ω/100Ω diff

Interfaces: MIPI-DSI 4-lane · MIPI-CSI 4-lane · SDIO · eMMC (<50MHz)

MIPI-DSI MIPI-CSI SDIO eMMC

High-Speed PCB Design with MIPI differential routing (100Ω) and length matching for camera/display interfaces on ESP32-P4.

12S BMS System

4-layer · Power

Configuration: 48V · 100A · Active balancing

Communication: CAN 2.0B · RS485 · I²C

CAN RS485 I²C SPI

High-Speed PCB Design for automotive BMS with isolated CAN and current sensing. EMC/EMI compliant layout.

10kW Motor Drive

4-layer · Power

Power Stage: Fuji IPM · 1200V · Isolated drivers

Layout: IEC 60664 · Thermal management

PWM CAN Encoder

High-Speed PCB Design for motor drive with isolated gate drivers and high-power layout techniques.

High-Speed PCB Design Tools

Industry-standard tools for High-Speed PCB Design and simulation.

Altium Designer KiCad HyperLynx Sigrity LTspice MATLAB

Furthermore, I utilize advanced simulation tools for pre-layout and post-layout analysis. Consequently, every High-Speed PCB Design achieves first-pass success. Additionally, I stay updated with the latest IPC standards and manufacturing technologies.

Need High-Speed PCB Design?

Therefore, if you require expert High-Speed PCB Design services for your next project, let’s connect.
[email protected]

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📍 Based in Germany · EU Market Focus