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Schematic Capture Jobs (NOW HIRING)

Electrical Engineer

Melbourne, FL · On-site

$120K - $150K/yr

We are seeking an experienced Electrical Engineer with strong expertise in circuit design, schematic capture, and PCB layout, particularly for older avionics components and systems. In this role, you ...

Principal Power Electrical Engineer

Hawthorne, CA · Hybrid

$141K - $172K/yr

Schematic capture and PCBA layout for power and analog circuits in Altium Designer * Design analysis including power, size, mass, Monte Carlo tolerances, and reliability related * PCBA design ...

Senior Electrical Engineer

Oak Ridge, TN

$102K - $133K/yr

Execute schematic capture, feasibility and prototyping, PCB bring-up, debugging, verification testing, and performance characterization of new designs. * Electronic system design and integration of ...

Schematic capture and PCBA layout for power and analog circuits in Altium Designer * Design analysis including power, size, mass, Monte Carlo tolerances, and reliability related * PCBA design ...

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Schematic Capture information

What kind of jobs in media bring in $150,000 a year?

In media, high-paying roles such as senior broadcast engineers, media directors, or technical managers can earn $150,000 or more annually. These positions typically require extensive experience, advanced technical skills, and often involve leadership responsibilities or specialized knowledge of broadcast systems, editing software, or digital media infrastructure.

What are some common challenges faced by professionals working in schematic capture, and how can they be addressed?

Professionals in schematic capture often encounter challenges such as ensuring accuracy in circuit representation, maintaining clear documentation, and managing frequent design revisions. Effective communication with hardware engineers and PCB designers is essential to clarify requirements and resolve discrepancies. Utilizing version control systems and rigorous review processes can help prevent errors and streamline collaboration, ultimately leading to higher-quality designs and more efficient project workflows.

What is the difference between Schematic Capture vs PCB Designer?

AspectSchematic CapturePCB Designer
Primary FocusCreating electronic circuit diagramsDesigning printed circuit board layouts
Skills & CertificationsElectrical engineering knowledge, schematic software proficiencyPCB layout skills, CAD software expertise
Work EnvironmentElectronics design teams, engineering firmsManufacturing, electronics companies
Industry UsageInitial circuit design phaseFinal PCB development and manufacturing

While both roles are integral to electronic product development, schematic capture involves creating detailed circuit diagrams, whereas PCB designers focus on laying out the physical circuit boards. Understanding these differences helps in selecting the right career path or job role within electronics design teams.

What is schematic capture software?

Schematic capture software is a tool used by electrical and electronic design engineers to create detailed circuit diagrams, or schematics, which represent the connections and components of an electronic system. It is essential for designing, documenting, and verifying circuit layouts before manufacturing. Proficiency in these tools is often required for roles involving circuit design and PCB development.

Is PCB design a good career?

Schematic Capture is a key part of PCB design, which involves creating electronic circuit diagrams used in manufacturing printed circuit boards. Careers in PCB design are in demand due to the growth of electronics and technology industries, requiring skills in CAD tools and understanding of electronic components. The field offers opportunities in various sectors such as consumer electronics, aerospace, and automotive, often requiring certifications or experience with industry-standard software.

What are the key skills and qualifications needed to thrive in a Schematic Capture role, and why are they important?

To thrive in a Schematic Capture role, you need a solid understanding of electronic circuit design, component selection, and engineering principles, typically supported by a degree in electrical engineering or a related field. Proficiency with electronic design automation (EDA) tools such as OrCAD, Altium Designer, or Cadence is essential, alongside familiarity with PCB layout software. Attention to detail, problem-solving abilities, and effective communication with design teams are crucial soft skills. These competencies ensure accurate and efficient translation of circuit concepts into manufacturable schematics, reducing errors and facilitating successful hardware development.

What is schematic capture?

Schematic capture is the process of creating a digital representation of an electronic circuit using specialized software. It involves placing and connecting symbols that represent electronic components, such as resistors, capacitors, and integrated circuits, to form a complete circuit diagram. This digital schematic is used for designing, analyzing, and eventually manufacturing printed circuit boards (PCBs). Schematic capture is a crucial step in electronics design, helping engineers verify circuit functionality before physical prototyping.

What jobs make $3,000 a day?

High-paying jobs related to schematic capture or engineering, such as senior electrical engineers, project managers, or specialized consultants, can earn around $3,000 daily, especially with extensive experience, certifications, and working on large-scale projects. These roles often require advanced technical skills, industry knowledge, and sometimes long hours or high responsibility levels.
More about Schematic Capture jobs
Electrical Schematic/PCB Design Engineer (Semiconductor Test Hardware)

Electrical Schematic/PCB Design Engineer (Semiconductor Test Hardware)

DFW Test Incorporated

Richardson, TX • On-site

$70K - $150K/yr

Full-time

Retirement, PTO

Re-posted 2 days ago

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Job description

About the role:

We’re looking for an engineer who can translate customer inputs—Word specs, Excel netlists/BOMs, interface requirements, and legacy drawings—into robust electrical schematics that drive high‐quality PCB designs for semiconductor test hardware (probe, final test load boards, interface/fixture boards, handler interface, and related assemblies). You’ll own schematic capture and collaborate closely with PCB layout, mechanical, test, and manufacturing partners to deliver first‐pass success on fast‐moving customer programs.

What you’ll do:

Own schematic capture from ambiguous or mixed customer inputs; clarify requirements, define architecture, and drive parts selection and library needs.

Create well‐constrained designs that account for ATE realities (signal integrity, crosstalk, leakage, guarding/guard rings, Kelvin connections, relay/mux topologies, pogo/contactor constraints, ESD, thermal).

Partner with PCB layout to enforce design rules for high‐density, high‐pin‐count boards (fan‐out, length/phase matching, differential pairs, controlled impedance, reference plane strategy, return current).

Generate and maintain deliverables: schematics, netlists, constraints, design notes, BOMs, test points, release packages, and ECOs.

Interface with customers (design reviews, DFM/DFT tradeoffs, risk/mitigation plans) and internal cross‐functional teams (ME, Test, Supply Chain, CM).

Shepherd designs through build: fab/assembly bring‐up support, issue triage, corrective actions, and documentation updates.

Continuously improve our libraries, checklists, and design standards for ATE hardware.

Required qualifications:

3–8+ years in electrical design for PCB‐based products; at least 2+ years specifically in semiconductor test hardware or high‐density mixed‐signal boards (probe/final test, load boards, DUT/contactor boards, or similar).

Schematic capture proficiency in multiple CAD environments, including Cadence Allegro/Concept HDL OrCad and Altium Designer (you can interpret and adapt across tools).

• Strong grasp of signal integrity and power integrity fundamentals: termination, return paths, reference plane stitching, decoupling strategy, controlled impedance, crosstalk mitigation.

• Experience with mixed‐signal and low‐leakage/low‐noise design (sensor or precision analog helpful), switch/mux/relay trees, level shifting, protection, and EMC/ESD practices.

• Comfortable reading/creating BOMs, netlists, constraints, and coordinating part selections with the library/CM team (second sources, lifecycles, lead times).

• Ability to convert informal customer artifacts (spreadsheets, drawings, legacy PDFs) into a clean, reviewable schematic with clear notes/assumptions.

• Excellent documentation, version control, and ECO discipline; clear, concise communication with customers and vendors.

Nice to have:

• Background in ATE platforms (e.g., Advantest, Teradyne) and DUT/socket/contactor constraints.

• Experience with high‐current power distribution, RF/coax routing basics, or wide‐bandwidth measurement paths.

• Familiarity with DFM/DFT for probe and final test: stacking height, planarity, warpage, fiducials, test access, probe card specifics.

• Prior work with constraint‐driven flows (rules for length/phase, topology, via budgets) and SI/PI simulation tools (e.g., Sigrity, HyperLynx).

Scripting/automation for CAD (Altium scripts, SKILL, Python) and PLM/ERP integration.

• Experience collaborating with overseas layout partners or CMs and doing supplier bring‐up.

What success looks like in 30 days:

• You’ve shipped at least one schematic package from customer inputs to layout handoff with zero critical ECOs.

• You’ve introduced at least one library or checklist improvement that reduces review time or rework.

• You’re the go‐to for translating messy specs into clear, test‐ready schematics.

Compensation & benefits:

• Competitive salary with performance bonus; 401(k) with match; paid time off and holidays.


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About DFW Test

Sourced by ZipRecruiter

Industry

Electrical equipment, appliance, and component manufacturing

Company size

11 - 50 Employees

Headquarters location

Richardson, TX, US

Year founded

1992