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Signal Integrity Engineer Jobs in Minnesota (NOW HIRING)

The Staff Engineer, Electrical Design works in cross functional teams with other designers ... Signal Integrity, Schematic Modeling, Cadence, Mentor Xpedition, Mentor PADS, Altium Designer ...

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A Cohu RF Product Development Engineer requires experience in RF and signal integrity to design, optimize, characterize and support hardware for semiconductor test interfaces. The primary ...

Understand Signal Integrity and related design impacts * Must have legal authorization to work in ... Bachelors in Engineering (EE, CE, or CS preferred) and 12+ years of related experience; OR Masters ...

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Signal Integrity Engineer information

See Minnesota salary details

$124.9K

$165K

How much do signal integrity engineer jobs pay per year?

As of Jul 16, 2026, the average yearly pay for signal integrity engineer in Minnesota is $162,880.00, according to ZipRecruiter salary data. Most workers in this role earn between $163,600.00 and $163,600.00 per year, depending on experience, location, and employer.

What is the difference between Signal Integrity Engineer vs RF Engineer?

AspectSignal Integrity EngineerRF Engineer
Required CredentialsBachelor's or Master's in Electrical Engineering, certifications like IEEEBachelor's or Master's in Electrical Engineering, RF-specific certifications
Work EnvironmentDesign labs, simulation software, PCB testingTesting labs, antenna design, RF measurement equipment
Industry UsageHigh-speed digital design, PCB layout, signal analysisWireless, telecommunications, radar systems

While both roles require electrical engineering knowledge, Signal Integrity Engineers focus on maintaining signal quality in digital systems, whereas RF Engineers specialize in radio frequency systems and wireless communication. The roles often overlap in industries like telecommunications and electronics, but their core responsibilities and tools differ.

What are the key skills and qualifications needed to thrive as a Signal Integrity Engineer, and why are they important?

To thrive as a Signal Integrity Engineer, you need a deep understanding of electrical engineering principles, high-speed circuit design, and electromagnetic compatibility, typically supported by a relevant engineering degree. Familiarity with simulation tools such as HyperLynx, HFSS, and SPICE, as well as PCB layout software and signal measurement instruments, is essential. Strong analytical thinking, problem-solving skills, and effective communication enable collaboration with multidisciplinary teams and interpretation of complex data. These skills are crucial to ensuring reliable, high-performance electronic systems and preventing costly design errors.

What Does a Signal Integrity Engineer Do?

A signal integrity engineer works within electronics engineering. You design circuit boards and electrical systems. Your responsibilities include finding solutions to problems surrounding electrical current delivery in various devices. Other duties involve creating pathways for current to travel through circuitry. As a signal integrity engineer, you work to keep current free from interference and reflections to provide the highest quality of current to a device or piece of equipment. Using superior troubleshooting skills, you identify design problems and develop solutions.

What are some common challenges Signal Integrity Engineers face when working on high-speed PCB designs?

Signal Integrity Engineers often encounter challenges such as minimizing crosstalk, managing electromagnetic interference (EMI), and ensuring signal quality over long trace lengths or high-frequency applications. They must collaborate closely with hardware designers, PCB layout engineers, and test teams to address these issues early in the design process. Staying updated with evolving standards and simulation tools is essential, as is troubleshooting problems that arise during prototyping and validation phases.

What does a Signal Integrity Engineer do?

A Signal Integrity Engineer is responsible for ensuring that electrical signals in high-speed circuits and systems maintain their quality and integrity as they travel through various components and interconnections. They analyze and address issues like signal loss, noise, crosstalk, and timing errors that can degrade performance in electronic devices, such as computer motherboards, communication systems, and data centers. Their work involves simulation, measurement, and troubleshooting to optimize designs and ensure reliable operation of complex electronic systems.
What are the most commonly searched types of Signal Integrity Engineer jobs in Minnesota? The most popular types of Signal Integrity Engineer jobs in Minnesota are:
What are popular job titles related to Signal Integrity Engineer jobs in Minnesota? For Signal Integrity Engineer jobs in Minnesota, the most frequently searched job titles are:
What job categories do people searching Signal Integrity Engineer jobs in Minnesota look for? The top searched job categories for Signal Integrity Engineer jobs in Minnesota are:
What cities in Minnesota are hiring for Signal Integrity Engineer jobs? Cities in Minnesota with the most Signal Integrity Engineer job openings:
Electrical Design Engineer

Electrical Design Engineer

Celestica

Maple Grove, MN • On-site

Other

Posted 6 days ago

New


Celestica rating

8.6

Company rating: 8.6 out of 10

Based on 5 frontline employees who took The Breakroom Quiz

17th of 142 rated electronics manufacturers


Job description

Summary

The Staff Engineer, Electrical Design develops new electrical systems/circuits for various applications. Research system ideas and draw up plans for these systems, and capture them in schematics and system specifications. Test, simulate, validate and qualify their systems and make adjustments as needed. Provide support throughout the manufacturing of the electrical systems they have designed.


The Staff Engineer, Electrical Design works in cross functional teams with other designers, customers, manufacturing engineering and project leadership to ensure robust and high quality product development. Enhance designs with feedback from reviews in areas such as manufacturing, test, supply chain, reliability, industrial design and simulations.

This role will be focused in the A&D space with consultation in Health Tech, Energy, and Industrial.


Detailed Description

Performs tasks such as, but not limited to, the following:

  • Lead the design, development and implementation of technical solutions for complex projects, involving multiple domains. Participate in project planning and scheduling.
  • Provides technical leadership and direction to a sizable team of engineers. May be a recognized expert (go to person) in one or more technical areas
  • Takes responsibility for non-technical elements of an engineering project (people, financials etc.).
  • Reviews and interprets customer requirements/specifications and may act as primary customer contract.
  • Analyze trade-offs in complex systems and recommend solutions. Develops deployment strategies and plans.
  • Leads the deployment of strategic complex programs and coordinates site-wide deployment efforts.
  • May manage relationships with key vendors/partners.
  • Design, modify and implement systems that meet customer and Celestica needs. E.g. creation of Schematics, Bills of material, diagrams, drawings, etc.
  • Testing, simulation and measuring (including troubleshooting) the performance of systems
  • Keep up to date with relevant industry knowledge and regulations
  • Solve complex problems
  • Liaison with suppliers, customers, contractors, and other internal teams.
  • Analyze and interpret data and information
  • Recommend modifications for systems
  • Create reports, minutes and updates
  • May be a recognized expert (go to person) in one or more technical areas.


Knowledge/Skills/Competencies

Enabling Competencies:

  • Project Management - Ability to manage/lead complex, multiple line engineering projects that may also involve other functions. Demonstrate solid understanding of the technical, financial and people aspects of the project. Able to create a project/change management plan and ensure that the project is delivered within the assigned time and budget. Ability to recognize project barriers and develop mitigation plans.
  • Leadership - Demonstrate "People & Team Leadership Behaviors" as per Celestica Leadership Imperatives.
  • Financial Acumen / Business Planning - Ability to create financial plans for your projects, align them internally with your line of management and other functions and externally if needed. Create project plans, profitability calculations, risk and sensitivity analysis, able to recognize barriers and mitigate profitability risks. Fully knowledgeable about internal and external financial reporting, accounting and tax requirements relevant to your area of expertise.
  • The following competencies may also be required: Coaching/Mentoring; Communication/Negotiation/Presentation; Creative Problem Solving; Customer Interaction/Stakeholder Management; Quality & Lean; Working Effectively with Others; D/PFMEA; 8D/Corrective Action; Equipment Safety; Design of Experiments (DOE).
  • Aerospace & Defense Experience – Ability to lead projects compliant with AS9100D, identify and design to MIL-STDs for various designs


Technical Competencies:

The following are the associated Technical Competencies that are required for the various Standard Jobs within the Design Engineering Electrical career stream. This list is for illustrative purposes and may not be inclusive of all skills.

  • DIGITAL/LOGIC : EE-Embedded, FPGA, DSP, Static Timing, Tolerance Analysis, EE-Digital, EE-Power Point of Load supplies, EE-Battery, Signal Integrity, Schematic Modeling, Power Integrity, ESD Controls & Standards
  • POWER : EE-Power Switching Supply, EE-Point of Load Supplies, EE-Battery, Power Integrity-CoreSim, Tolerance Analysis, EE-Analog, Schematic Modeling
  • PCB/LAYOUT : Signal Integrity, Schematic Modeling, Cadence, Mentor Xpedition, Mentor PADS, Altium Designer, Other Layout tools, Tolerance Analysis, Power Integrity
  • SCHEMATIC DESIGN/SIGNAL INTEGRITY: EE-Digital, EE-Analog, Tolerance Analysis, Static Timing, Schematic Modeling
  • ANALOG : EE-Analog, Tolerance Analysis, RF Design(<5Ghz), High Frequency (>20Ghz) RF Design


Typical Experience

  • 7 to 10 years of related experience; Experience in similar job roles



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