Senior Electronics Design Engineer – GC/LC (Woodbridge, CAN) at PerkinElmer in Woodbridge, York region. Skills: Analog Circuit Design, Collaboration, Data Acquisition, Electronic Design, Product Lifecycle Management. Apply on NeverHard.
Company
PerkinElmer
Location
Woodbridge, York region
Type
full_time
Required skills:
Analog Circuit Design
Collaboration
Data Acquisition
Electronic Design
Product Lifecycle Management
Signal conditioning hardware
Simulation
mixed-signal design
When joining PerkinElmer, you select an experienced and trusted leader in scientific solutions, with the support of a global service network and distribution centers, providing the right solution, at the right time, to meet critical customer needs. With over an 80+ year legacy of advancing science and a mission of innovating for a healthier world, our dedicated team collaborates closely with commercial, government, academic and healthcare customers to deliver our broad portfolio of analytical solutions, and OneSource services.
Job Title
Senior Electronics Design Engineer – GC/LC (Woodbridge, CAN)
Location(s)
Woodbridge
Job Description
Purpose:
Design and develop electronics for advanced scientific instrumentation systems (e.g., mass spectrometers), with a focus on low-noise analog performance, mixed-signal integration, and high-reliability operation.
This role involves ownership of electronics across the full product lifecycle — from concept and design through validation, manufacturing, and sustaining — in a highly collaborative, cross-functional environment.
Responsibilities
Design and optimize low-noise analog and mixed-signal circuits for high-sensitivity measurement systems, including:
Signal conditioning and analog front-end design
Grounding, shielding, and noise mitigation
ADC/DAC interfacing and data acquisition chains
Perform design, simulation, and validation of analog, digital, and mixed-signal circuits, ensuring performance in low-level signal environments (µV–mV range)
Lead or contribute to system-level design decisions, balancing performance, cost, manufacturability, and supply constraints
Conduct design verification and validation (DVT), including lab testing, debugging, and root-cause analysis of complex hardware issues
Support product sustaining activities, including:
Component obsolescence management
Design updates and engineering changes
Field issue investigation and resolution
Collaborate closely with scientists, mechanical engineers, firmware developers, manufacturing, and suppliers to deliver robust system solutions
Develop and maintain technical documentation including design specifications, test procedures, and validation reports
Contribute to the development of new technologies and architectures for next-generation instrumentation systems
Basic Qualifications
Bachelor’s degree in Electrical Engineering or closely related discipline (advanced degree considered an asset)
Minimum 5+ years of experience in hardware design, preferably in instrumentation, medical devices, or scientific equipment
Required Technical Experience
Strong analog and mixed-signal design experience, particularly involving:
Low-level signal acquisition (µV–mV range)
High-impedance and low-noise circuits
Analog/digital interfacing (ADC/DAC systems)
Proven ability to design systems where sensitive analog signals coexist with digital electronics, including:
Layout partitioning and grounding strategies
Noise mitigation and signal integrity techniques
Hands-on experience with:
PCB design (Altium, OrCAD, etc.)
Circuit simulation tools (e.g., PSpice, LTspice)
Lab debugging and measurement (oscilloscope, DMM, spectrum analyzer)
Strong experience in troubleshooting PCBAs and system-level hardware issues
Knowledge of EMI/EMC design practices and compliance requirements
Understanding of manufacturing processes, DFM/DFT, and production support
Key Competencies
Strong analytical and problem-solving skills, especially in ambiguous or complex situations
Ability to make engineering trade-offs considering performance, cost, risk, and timeline
Comfortable working in a hands-on lab environment for testing and debugging
Effective communication skills for collaboration across cross-functional teams
Ability to work independently while also contributing to team-based development