About the Job
Bridgecom Semiconductors is a growing tech startup specializing in 5G solutions, with locations in Munich and Linz. As a Senior Staff Analog Mixed-Signal Design Engineer at Bridgecom, you will be the technical cornerstone for our high-performance data conversion and analog sub-systems. Your mission is to architect and deliver scalable, power-efficient ADC and DAC solutions that bridge the gap between complex 5G RF front-ends and digital baseband processing. This is a "full-lifecycle" role where you will influence everything from initial system modeling to final post-silicon validation.
Your Responsibilities
Data Converter Architecture : Lead the evaluation and selection of optimal ADC/DAC topologies (e.g., SAR, Sigma-Delta, Pipeline, or hybrid) based on evolving project requirements for speed, resolution, and power.
High-Performance Analog Design: Own the design of critical precision blocks, including high-bandwidth/high-linearity OPAMPs, ultra-low-noise Bandgap References, and integrated filtering solutions.
Mixed-Signal Integration: Define and verify the interface between analog and digital domains, including clock distribution, timing alignment, and digital calibration loops.
Modeling & Simulation: Develop high-level behavioral models (Verilog-A/MS, SystemVerilog, or MATLAB) to define block-level specifications and perform system-level budget analysis (SNR, SFDR, ENOB).
Advanced Verification: Execute rigorous mixed-signal simulations using Siemens/Cadence tooling to ensure robust performance across PVT corners and mismatch.
Post-Silicon Characterization: Lead the bench-level debug and characterization of your designs. You will be responsible for conducting measurements, correlating silicon measurements with simulation results and driving issue resolution.
Technical Mentorship: Guide layout engineers on mixed-signal best practices, including matching, isolation, and parasitic management in FinFET/FD-SOI nodes.
Your Profile
Versatile AMS Expert: Deep theoretical and practical knowledge of data converter architectures and discrete-time/continuous-time signal processing.
Design for Reliability: Expertise in managing nanometer-scale challenges, including EM/IR drop, device aging, and complex parasitic extraction (PEX).
Post-Silicon: Hands-on experience with lab automation (Python-based) and high-speed instrumentation for characterizing high-performance analog IPs.
Proficient in Python for the development of automated verification environments and measurement scripts. Experienced in using libraries such as NumPy, SciPy, and Pandas for processing large-scale simulation and lab data.
Tool Proficiency:
Simulation: Siemens AFS (Advanced Frequency Simulator) / Eldo or Cadence Spectre/Spectre-RF.
Mixed-Signal: Siemens Symphony or Cadence AMS Designer.
Physical Sign-off: Siemens Calibre (DRC/LVS/PEX).
Modeling: MATLAB/Simulink, Verilog-A, or SystemVerilog.
Strategic Thinker: Able to structure complex, ambiguous problems into executable work packages and maintain a clear technical "red thread" throughout the design cycle.
Education and Experience
Master’s degree in Electrical Engineering or a related field; Ph.D. is a strong plus.
8–12+ years of experience in high-performance Analog Mixed-Signal design with a record of successful tape‑outs in advanced process nodes.
Proven track record of taking a product from early‑stage concept through to high‑volume production ramp‑up.
Our Offer
The opportunity to work on next‑generation 5G RF semiconductor technologies tailored IoT and automotive markets.
A dynamic environment where engineers get the full picture of a product development cycle, not just execute isolated tasks.
An inclusive and diverse team in a thriving tech startup setting.
Individual growth opportunities in a growth company.
Continuous learning through collaboration with senior engineers and hands‑on exposure across multiple areas of semiconductor development.
Contact Us
We are looking forward to receiving your application including your CV and a Cover Letter!
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