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Signal Integrity Jobs in Arizona (NOW HIRING)

This role offers a great chance for an experienced and driven Signal and Power Integrity engineer to join the SIPI team. You will work on the future of System-in-Package development, concentrating on ...

This role offers a great chance for an experienced and driven Signal and Power Integrity engineer to join the SIPI team. You will work on the future of System-in-Package development, concentrating on ...

Signal Integrity Excellence: * Perform signal integrity analysis and optimization for qubit chips to ensure optimal performance * Apply electromagnetic (EM) modeling and simulation tools for signal ...

Principal Electrical Engineer

Phoenix, AZ ยท On-site

$130K - $159K/yr

Provide hands-on support during SiP layout and perform signal-integrity analysis to ensure robust high-speed performance * Support proposal development by contributing technical architectures, cost ...

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Signal Integrity information

See Arizona salary details

$118.8K

$157K

How much do signal integrity jobs pay per year?

As of Jul 14, 2026, the average yearly pay for signal integrity in Arizona is $154,977.00, according to ZipRecruiter salary data. Most workers in this role earn between $155,600.00 and $155,600.00 per year, depending on experience, location, and employer.

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

AspectSignal IntegritySignal Integrity Engineer
CredentialsKnowledge of high-speed digital design, basic electrical engineeringSame as Signal Integrity, often with additional certifications or degrees
Work EnvironmentDesign teams, R&D labs, manufacturingDesign and analysis teams, R&D labs, manufacturing
Industry UsageFocuses on principles and analysisApplies principles to design, testing, and troubleshooting
Search IntentUnderstanding signal integrity conceptsFinding professionals or job roles in signal integrity

Signal Integrity refers to the principles and analysis of maintaining signal quality in electronic systems. A Signal Integrity Engineer applies these principles in designing, testing, and troubleshooting high-speed digital circuits. While the concepts are similar, the role of a Signal Integrity Engineer involves practical application and problem-solving in real-world projects.

How much does Apple signal integrity engineer make?

Signal integrity engineers at Apple typically earn between $100,000 and $150,000 annually, depending on experience, location, and level. Salaries may also include bonuses and stock options, with roles requiring knowledge of high-speed digital design and tools like SPICE or HFSS.

What engineer makes $500,000 a year?

Signal integrity engineers working in high-level roles, such as senior or lead engineers in the semiconductor or aerospace industries, can earn salaries approaching or exceeding $500,000 annually, especially with extensive experience, specialized skills, and often in managerial or executive positions. Compensation varies based on location, company size, and individual expertise, with some earning bonuses and stock options that contribute to total compensation.

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 solid background in electrical engineering principles, high-speed digital design, and electromagnetic theory, typically supported by a relevant engineering degree. Familiarity with simulation tools like HyperLynx, Cadence Sigrity, and oscilloscopes, as well as knowledge of industry standards and PCB layout software, is crucial. Strong problem-solving skills, attention to detail, and effective communication set top professionals apart in this field. These skills and qualities are vital to ensure reliable high-speed data transmission and prevent costly design issues in electronic systems.

What is signal integrity and why is it important in electronic design?

Signal integrity refers to the quality and reliability of electrical signals as they travel through circuits, especially at high speeds. Ensuring good signal integrity is crucial because poor signal integrity can cause data errors, timing issues, or complete circuit failure. Signal integrity engineers work to minimize issues like noise, crosstalk, reflections, and electromagnetic interference by carefully designing circuit layouts, selecting appropriate materials, and using simulation tools. This is particularly important in high-speed digital and RF systems, where even small distortions can have significant impacts.

What does a signal integrity engineer do?

A signal integrity engineer designs and analyzes high-speed electronic systems to ensure signals are transmitted without degradation or interference. They use simulation tools and measurement equipment to identify issues like crosstalk, reflections, and noise, optimizing PCB layouts and transmission lines for reliable performance.

How much do signal integrity engineers make?

Signal integrity engineers typically earn a median annual salary ranging from $80,000 to $130,000, depending on experience, location, and industry. Senior roles or those with specialized skills in high-speed design and simulation tools can command higher salaries, often exceeding $150,000 annually.

What are some common challenges faced by Signal Integrity engineers when working on high-speed PCB designs?

Signal Integrity engineers frequently encounter challenges such as managing crosstalk, minimizing electromagnetic interference, and ensuring signal quality over high-frequency transmission lines. Working closely with PCB layout designers and hardware engineers, they analyze and resolve issues related to impedance mismatches and timing delays. Staying updated with evolving standards and simulation tools is crucial, as continuous collaboration and troubleshooting are essential parts of the role.
What cities in Arizona are hiring for Signal Integrity jobs? Cities in Arizona with the most Signal Integrity job openings:
Infographic showing various Signal Integrity job openings in Arizona as of July 2026, with employment types broken down into 84% Full Time, 14% Part Time, and 2% Contract. Highlights an 95% Physical, 1% Hybrid, and 4% Remote job distribution, with an average salary of $154,977 per year, or $74.5 per hour.
Sr. Electrical / Signal Integrity Engineer

Sr. Electrical / Signal Integrity Engineer

Advantest

Chandler, AZ โ€ข On-site

$104K - $136K/yr

Full-time

Re-posted 15 days ago


Job description

Working in the Pathfinding R&D department, the Sr. Electrical / Signal Integrity Engineer will develop new semiconductor test interconnect technologies as well as signal integrity analyses for customer applications.


Responsibilities

Meet with customers, determine technology requirements, development strategy

Provide design inputs and work with Design team to ensure mechanical design meets the SI requirements

Create Test plans, procure collaterals needed

Test execution (or lead the lab resources to complete tests when feasible) - run experiments to characterize or validateperformance ofnew technology prototypes or first articles

Create documents (SI analysis reports, test reports, design recommendations)

Report results to customers, collaborate with customers to gain design approval

Effective technology and process handoff to Applications, Design, Manufacturing teams to enable future project success

Expert consultant where needed

BSEE or similar degree with 7+ years or MSEE with 5+ years of relevant experience, preferably in the semiconductor product design or test industry.

Basic skills

Test interconnect types/socket constructions

Tuning somewhat complex coax structures with multiple dielectric materials

Effects of construction/cavity design on SI

3D EM SI simulation (ANSYS HFSS)

Spring probe and elastomer design considerations for maximizing bandwidth/minimizing crosstalk

Understand the requirements presented by digital interfaces such as DDR, PCIe, Ethernet, etc.

Advanced skills

VNA measurement techniques

PCB design/manufacturing methods

Experiment instrumentation and execution (meters and lab equipment, test methods, etc)

Design for manufacturing considerations related to test sockets