Electrical Engineer Resume Examples That Get Interviews in 2026
TL;DR
The BLS projects 7% employment growth for electrical engineers through 2034 — roughly 17,500 openings annually — yet most resumes in this field fail ATS screening because candidates list tools without context and omit measurable outcomes. The three resume examples below (entry-level, mid-career, and senior) show exactly how to quantify circuit design improvements, power system optimizations, and product development milestones so your resume survives keyword filtering and reaches a hiring manager who understands the difference between a schematic and a specification.
Why Electrical Engineers Are in Demand Right Now
The U.S. Bureau of Labor Statistics reports 192,000 electrical engineer positions as of 2024, with a median annual wage of $111,910. The top 10% earn above $175,460, and the field is projected to grow 7% from 2024 to 2034 — faster than the average for all occupations (BLS, Occupational Outlook Handbook). What is driving this demand? Four converging forces: 1. **Grid modernization and renewables integration.** The U.S. power grid is undergoing its largest transformation since electrification. Smart grids, microgrids, and distributed energy resources require electrical engineers who understand both legacy infrastructure and modern power electronics (Enercon Power, 2025). 2. **Electric vehicle infrastructure.** EV adoption is accelerating globally, but the charging infrastructure has not kept pace. Engineers who can design high-power DC fast-charging systems, battery management circuits, and vehicle power electronics are in acute shortage. 3. **Semiconductor expansion.** Wide-bandgap semiconductors — gallium nitride (GaN) and silicon carbide (SiC) — went mainstream in 2025, creating demand for engineers who can design power converters, RF circuits, and high-frequency applications using these materials (StartUs Insights, 2025). 4. **Data center power demand.** The U.S. has over 5,400 active data center facilities, and global capacity is predicted to more than triple by 2030. Every facility needs electrical engineers to design power distribution, UPS systems, and thermal management solutions (Bradley University, 2025). These are not theoretical trends. They are the reason hiring managers at Tesla, Intel, Siemens, and Schneider Electric are competing for the same talent pool — and why a well-structured resume with quantified achievements is your competitive edge.
Resume Example 1: Entry-Level Electrical Engineer (0-2 Years)
**SARAH CHEN, EIT** Austin, TX | [email protected] | (512) 555-0147 | linkedin.com/in/sarahchen-ee
Professional Summary
Electrical engineer with EIT certification and hands-on experience in PCB design, power electronics prototyping, and embedded systems from internship and capstone work at Texas Instruments and the University of Texas. Designed a solar MPPT charge controller that achieved 96.3% conversion efficiency in senior capstone. Seeking a role in power electronics or embedded systems design where MATLAB/Simulink modeling, Altium Designer layout skills, and a PE license trajectory add immediate value.
Education
**Bachelor of Science in Electrical Engineering** — University of Texas at Austin Graduated May 2025 | GPA: 3.72/4.0 | ABET Accredited - Dean's List: 6 of 8 semesters - Relevant coursework: Power Electronics, Control Systems, VLSI Design, Electromagnetic Theory, Signal Processing
Certifications
- **Engineer-in-Training (EIT)** — Texas Board of Professional Engineers, 2025
- **MATLAB Onramp & Simulink Onramp** — MathWorks Certified, 2024
- **IPC-A-610 Certified** — IPC (Association Connecting Electronics Industries), 2024
Technical Skills
**Design Software:** Altium Designer, AutoCAD Electrical, LTspice, MATLAB/Simulink, PSpice **Programming:** Python, C/C++ (embedded), VHDL, LabVIEW **Test Equipment:** Oscilloscopes (Keysight), spectrum analyzers, network analyzers, power analyzers **Standards:** IEC 61131, IEEE 519, NEC Article 430, UL 508A
Professional Experience
**Electrical Engineering Intern** — Texas Instruments, Dallas, TX May 2024 – August 2024 - Designed and validated a 48V-to-12V DC-DC buck converter reference design using TI's LMG3522R030-Q1 GaN FET, achieving 97.1% peak efficiency at 500W — exceeding the 96% target by 1.1 percentage points - Reduced PCB footprint of a gate driver evaluation module by 22% (from 45cm² to 35cm²) by migrating from through-hole to surface-mount passives and optimizing component placement in Altium Designer - Wrote 14 automated test scripts in Python interfacing with Keysight 34461A DMMs via SCPI commands, cutting validation cycle time from 8 hours to 2.5 hours per board revision - Collaborated with 3 applications engineers to debug EMI issues on a motor drive reference design, implementing spread-spectrum clocking that reduced conducted emissions by 12 dBµV at 150 kHz **Undergraduate Research Assistant** — UT Austin Power Electronics Lab September 2023 – May 2025 - Designed a solar maximum power point tracking (MPPT) charge controller achieving 96.3% conversion efficiency across 15V-45V input range, validated through 200+ hours of outdoor testing - Modeled a 3-phase inverter in MATLAB/Simulink with space vector PWM, reducing total harmonic distortion from 8.2% to 3.1% — below the IEEE 519 limit of 5% - Fabricated 6 PCB revisions in Altium Designer for a 1kW bidirectional converter prototype, resolving thermal issues by adding copper pours that reduced MOSFET junction temperature by 18°C - Co-authored a conference paper presented at IEEE ECCE 2024 on GaN-based totem-pole PFC topology with 99.1% efficiency at 1kW
Projects
**Smart Home Energy Monitor** — Personal Project - Built a non-invasive current monitoring system using 4 split-core CTs and an ESP32 microcontroller, measuring household power consumption within ±2.3% accuracy compared to utility meter readings - Designed a custom PCB in KiCad with integrated Wi-Fi, transmitting real-time data to a Grafana dashboard updating every 5 seconds
Resume Example 2: Mid-Career Electrical Engineer (5-8 Years)
**MARCUS RODRIGUEZ, PE** San Jose, CA | [email protected] | (408) 555-0293 | linkedin.com/in/marcusrodriguez-pe
Professional Summary
Licensed Professional Engineer with 7 years of experience designing power distribution systems and high-reliability electronics for semiconductor manufacturing and renewable energy applications. At Intel, led the electrical design of a $34M cleanroom power upgrade that achieved 99.997% uptime over 18 months. Combines deep expertise in ETAP power systems modeling, medium-voltage switchgear specification, and NEC/NFPA 70E compliance with a track record of delivering projects under budget. PE License #E-87234, State of California.
Certifications
- **Professional Engineer (PE), Electrical** — California Board for Professional Engineers, 2023
- **Certified Energy Manager (CEM)** — Association of Energy Engineers, 2022
- **OSHA 30-Hour Construction Safety** — OSHA Training Institute, 2021
- **Six Sigma Green Belt** — ASQ (American Society for Quality), 2020
Technical Skills
**Power Systems:** ETAP, SKM PowerTools, EasyPower, EDSA Paladin **Design & Modeling:** AutoCAD Electrical, Revit MEP, MATLAB/Simulink, MathCAD **Programming:** Python (data analysis, automation), SQL, VBA **Standards:** NEC (NFPA 70), NFPA 70E, IEEE 1584 (Arc Flash), IEEE 519, ASHRAE 90.1 **Specializations:** Arc flash analysis, coordination studies, power quality, harmonic analysis
Professional Experience
**Senior Electrical Engineer** — Intel Corporation, Hillsboro, OR March 2022 – Present - Led electrical design for a $34M cleanroom power distribution upgrade serving 2,400 process tools, achieving 99.997% uptime (4.3 minutes unplanned downtime) over 18 months of operation - Performed arc flash analysis across 147 panels and switchboards using ETAP, reducing incident energy levels at 23 locations by an average of 8.4 cal/cm² through relay coordination optimization - Specified and oversaw installation of 3 × 2,500kVA dry-type transformers (480V secondary) and associated 4,000A switchgear, completing commissioning 11 days ahead of schedule - Designed a 2MW emergency generator paralleling system with automatic transfer switches, achieving <10-second transfer time during 6 utility outage events — zero production interruptions - Reduced annual energy consumption by 1.2 GWh ($156,000/year) by redesigning the variable frequency drive strategy for 84 HVAC motors serving 3 fab buildings - Mentored 4 junior engineers through PE exam preparation; 3 of 4 passed on first attempt **Electrical Engineer II** — Schneider Electric, Nashville, TN June 2019 – February 2022 - Designed power distribution systems for 12 commercial and industrial facilities totaling 45MW of connected load, maintaining 100% code compliance across all projects - Conducted 8 power quality surveys using Dranetz analyzers, identifying harmonic distortion sources and implementing passive filters that reduced THD from 14.7% to 4.8% at 3 manufacturing sites - Developed a standardized coordination study template in ETAP that reduced project engineering hours by 35% (from 120 hours to 78 hours per study) — adopted across the regional office of 18 engineers - Created a 480V/277V panelboard selection tool in Excel VBA that automated NEC load calculations, eliminating 6 hours of manual calculation per project and reducing sizing errors by 100% (zero errors in 24 projects) **Electrical Engineer I** — Burns & McDonnell, Kansas City, MO July 2017 – May 2019 - Produced construction document sets for 7 substation projects (69kV to 345kV), including one-line diagrams, three-line diagrams, control schematics, and cable schedules - Performed short-circuit and protective relay coordination studies for a 138kV transmission line interconnection, ensuring compliance with NERC PRC-001 reliability standards - Supported commissioning of a 50MW solar farm's electrical interconnection, verifying 156 string combiner boxes, 12 central inverters, and the medium-voltage collector system
Resume Example 3: Senior / Principal Electrical Engineer (12+ Years)
**DR. JENNIFER YAMAMOTO, PE, PMP** Boston, MA | [email protected] | (617) 555-0481 | linkedin.com/in/jenniferyamamoto
Professional Summary
Principal Electrical Engineer and PE with 14 years of experience leading multidisciplinary teams on power systems, renewable energy, and grid modernization projects totaling over $280M in capital value. At GE Vernova, directed the electrical engineering workstream for a 200MW offshore wind farm interconnection that delivered first power 6 weeks ahead of schedule. Holds a PhD in Power Systems Engineering and 3 patents in grid-forming inverter control. Combines technical depth in protection and control, HVDC transmission, and battery energy storage with executive-level stakeholder management across utility, developer, and regulatory audiences.
Certifications
- **Professional Engineer (PE), Electrical** — Massachusetts Board of Registration, 2016
- **Project Management Professional (PMP)** — PMI, 2018
- **Certified Power Quality Professional (CPQ)** — AEE, 2019
- **NERC System Operator Certification** — NERC, 2020
Technical Skills
**Power Systems:** ETAP, PSS/E (Siemens), PSCAD/EMTDC, DIgSILENT PowerFactory, ASPEN OneLiner **Protection & Control:** SEL-5030 AcSELerator, Siemens DIGSI, ABB PCM600 **Design:** AutoCAD Electrical, Revit MEP, MATLAB/Simulink, Python (power flow scripting) **Standards:** IEEE C37 (Protection), IEEE 1547 (Interconnection), NERC TPL/PRC, IEC 61850, NEC **Specializations:** Grid-forming inverters, HVDC, BESS, transient stability, protection coordination
Professional Experience
**Principal Electrical Engineer** — GE Vernova, Boston, MA January 2021 – Present - Directed the electrical engineering workstream for a 200MW offshore wind farm grid interconnection project ($142M), delivering first power to the ISO-NE grid 6 weeks ahead of the contracted milestone - Designed the protection and control scheme for a 320kV HVDC converter station, coordinating 47 protective relays (SEL and ABB) with <4ms fault clearance time — validated through 312 staged fault tests with zero misoperations - Led the technical design of a 100MW/400MWh battery energy storage system for grid frequency regulation, achieving 92.4% round-trip efficiency and $8.7M annual revenue from ISO-NE ancillary services markets - Developed a Python-based transient stability screening tool that reduced PSCAD simulation setup time by 60% (from 5 days to 2 days per scenario), adopted by 3 GE Vernova project teams across North America - Managed a team of 11 electrical engineers and 4 designers across 3 concurrent projects, maintaining 97% on-time deliverable completion rate across 847 engineering deliverables - Filed 2 patents (1 granted, 1 pending) on grid-forming inverter control algorithms that reduce frequency nadir by 35% compared to conventional grid-following designs **Lead Electrical Engineer** — Siemens Energy, Orlando, FL August 2016 – December 2020 - Led electrical design for 8 gas turbine combined-cycle power plants (total installed capacity: 4.2GW), managing $67M in electrical equipment procurement across all projects - Designed the 230kV switchyard and generator step-up transformer configuration for a 1.1GW combined-cycle plant, achieving 99.98% availability during the first 3 years of commercial operation - Performed system impact studies for 6 generator interconnection requests (500MW to 1,100MW) using PSS/E, identifying 3 thermal overloads and 2 voltage violations that required $23M in network upgrades - Implemented IEC 61850 GOOSE-based protection communication across a 345kV substation, reducing inter-trip time from 83ms (hardwired) to 4ms (fiber optic), eliminating 2,700 feet of copper control cable - Reduced engineering rework by 28% across the power generation division by establishing a peer review checklist covering 43 common electrical design errors, adopted as a mandatory gate for all projects **Electrical Engineer** — Black & Veatch, Overland Park, KS June 2012 – July 2016 - Designed medium-voltage (4.16kV to 34.5kV) power distribution systems for 5 water/wastewater treatment plants, totaling 22MW of connected motor load - Performed IEEE 1584 arc flash hazard analyses for 3 industrial facilities, implementing equipment modifications that reduced maximum incident energy from 42 cal/cm² to 8.7 cal/cm² - Led the electrical portion of a $18M wastewater pumping station upgrade, specifying 6 medium-voltage VFDs (2,500HP each) that reduced energy consumption by 31% compared to across-the-line starters - Obtained PE license in Kansas (2016) while managing a full project workload — passed on first attempt
Education
**Doctor of Philosophy in Electrical Engineering (Power Systems)** — MIT Dissertation: "Grid-Forming Inverter Control for Low-Inertia Power Systems" | 2012 **Bachelor of Science in Electrical Engineering** — University of Michigan Summa Cum Laude | 2007
Patents & Publications
- U.S. Patent 11,XXX,XXX — "Adaptive Droop Control Method for Grid-Forming Inverters in Weak Grid Conditions" (2024)
- U.S. Patent Application 18/XXX,XXX — "Synthetic Inertia Emulation Using Battery Energy Storage" (2025, pending)
- 9 peer-reviewed publications in IEEE Transactions on Power Systems and IEEE Transactions on Power Electronics (h-index: 7)
ATS Keywords for Electrical Engineer Resumes
Use these keywords strategically throughout your resume — in your summary, experience bullets, and skills section. Do not keyword-stuff; embed them in the context of real accomplishments.
Core Technical Keywords
- Circuit design
- Power systems analysis
- PCB layout
- Schematic capture
- Embedded systems
- Signal processing
- Control systems
- Power electronics
- VLSI design
- Electromagnetic compatibility (EMC)
Software & Tools Keywords
- MATLAB/Simulink
- AutoCAD Electrical
- Altium Designer
- ETAP
- PSpice / LTspice
- LabVIEW
- Python
- VHDL / Verilog
- SolidWorks Electrical
- PSS/E
Industry & Compliance Keywords
- NEC compliance
- IEEE standards
- Arc flash analysis
- Short-circuit study
- Coordination study
- Power quality
- Harmonic analysis
- NFPA 70E
- UL listing
- FCC Part 15
Skills Breakdown: What Hiring Managers Actually Evaluate
Hard Skills (Must-Have)
| Skill Category | Entry-Level Expectation | Mid-Career Expectation | Senior Expectation |
|---|---|---|---|
| Circuit Design | Schematic capture, basic analog/digital | Mixed-signal, high-speed digital, RF | Architecture-level design, system trade studies |
| Power Systems | Load calculations, basic one-line diagrams | Arc flash, coordination, power quality | System planning, interconnection studies, HVDC |
| Simulation | MATLAB basics, LTspice | ETAP, Simulink (complex models) | PSCAD, PSS/E, transient stability |
| PCB Design | 2-layer boards, basic routing | 4-6 layer, impedance-controlled | High-density interconnect, flex-rigid, RF |
| Programming | Python scripting, C for embedded | Automation scripts, data analysis | Algorithm development, tool development |
| Standards | NEC awareness, basic IEEE | NEC code-compliant designs, IEEE 1584 | Author of standards, NERC compliance |
| ### Soft Skills That Move Resumes to the Top | |||
| - **Cross-functional collaboration** — Electrical engineers rarely work in isolation. Mention collaboration with mechanical, firmware, manufacturing, and test teams. | |||
| - **Technical writing** — Engineering reports, test procedures, and specifications are daily deliverables. Quantify: "Authored 14 test procedures" beats "Strong communication skills." | |||
| - **Project coordination** — Even without a PMP, showing you managed timelines, budgets, or vendor relationships differentiates you from candidates who only execute tasks. | |||
| - **Mentorship** — At the senior level, hiring managers want to see that you develop talent. "Mentored 4 junior engineers through PE exam preparation; 3 of 4 passed on first attempt" proves leadership better than "Led a team." | |||
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| ## Common Mistakes on Electrical Engineer Resumes | |||
| ### 1. Listing Tools Without Context | |||
| **Wrong:** "Proficient in ETAP, AutoCAD Electrical, MATLAB, Altium Designer, Python" | |||
| **Right:** "Performed arc flash analysis across 147 panels using ETAP, reducing incident energy at 23 locations by an average of 8.4 cal/cm²" | |||
| Hiring managers assume you can learn tools. They want to know what you accomplished with them. | |||
| ### 2. Omitting the PE License Timeline | |||
| If you have your EIT, say so. If you are accumulating experience toward PE licensure, mention it. PE-licensed electrical engineers earn an estimated $10,000-$40,000 more annually depending on specialization and geography (ZipRecruiter, 2025). Omitting your licensure status leaves a gap that recruiters will notice. | |||
| ### 3. Using Vague Power Ratings | |||
| "Designed power systems for industrial facilities" tells the hiring manager nothing. Compare: "Designed 4.16kV power distribution for a 22MW wastewater treatment plant serving 6 × 2,500HP pump motors." Voltage levels, power ratings, and load sizes are the language of electrical engineering — speak it. | |||
| ### 4. Ignoring Industry-Specific Standards | |||
| Every electrical engineering subdomain has its standards. Power engineers should reference NEC, NFPA 70E, IEEE 1584, and NERC. Electronics engineers should cite IPC standards, FCC Part 15, and UL. Omitting these signals to the hiring manager that you may not understand the regulatory environment. | |||
| ### 5. Burying Quantified Results in Paragraphs | |||
| Recruiters spend an average of 6-7 seconds on initial resume screening. Bullet points with numbers at the beginning catch the eye. "Reduced conducted emissions by 12 dBµV" registers faster than a paragraph explaining your approach to EMI mitigation. | |||
| ### 6. Failing to Differentiate Between Design and Analysis Roles | |||
| An engineer who runs ETAP models all day has a fundamentally different skill set from one who specifies switchgear and writes procurement specifications. Make sure your resume clearly conveys whether you are a design engineer, an analysis engineer, or both — and quantify accordingly. | |||
| ### 7. Generic Professional Summary | |||
| "Results-oriented electrical engineer with strong problem-solving skills" could describe any of 192,000 electrical engineers in the U.S. Your summary should contain at least one specific metric, one named technology or standard, and one industry context. See the three examples below. | |||
| --- | |||
| ## Professional Summary Examples | |||
| ### Entry-Level (New Graduate / 0-2 Years) | |||
| > EIT-certified electrical engineer with internship experience at Texas Instruments designing GaN-based DC-DC converter reference designs that achieved 97.1% peak efficiency. Proficient in Altium Designer, MATLAB/Simulink, and Python test automation. Senior capstone project delivered a solar MPPT charge controller with 96.3% conversion efficiency validated through 200+ hours of field testing. Seeking a power electronics or embedded systems design role. | |||
| ### Mid-Career (5-8 Years, PE Licensed) | |||
| > Licensed Professional Engineer with 7 years of experience designing power distribution systems for semiconductor fabs and commercial facilities totaling 45MW+ of connected load. Led a $34M cleanroom power upgrade at Intel that achieved 99.997% uptime over 18 months. Expert in ETAP power systems modeling, arc flash analysis (IEEE 1584), and NEC compliance. Delivered $156,000 in annual energy savings through VFD optimization across 84 HVAC motors. | |||
| ### Senior / Principal (12+ Years) | |||
| > Principal Electrical Engineer and PE with 14 years leading power systems and renewable energy projects totaling $280M+ in capital value. At GE Vernova, directed the electrical workstream for a 200MW offshore wind interconnection delivered 6 weeks ahead of schedule. Holds 3 patents in grid-forming inverter control and a PhD in Power Systems from MIT. Combines deep technical expertise in HVDC, BESS, and protection engineering with executive stakeholder management across utility, developer, and regulatory audiences. | |||
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| ## Frequently Asked Questions | |||
| ### Do I need a PE license to work as an electrical engineer? | |||
| No — you do not need a PE license for most private-sector electrical engineering positions. However, the PE license is required if you want to stamp engineering drawings, offer services directly to the public, or hold certain senior positions at utilities and consulting firms. The BLS notes that licensure requirements vary by state but typically require passing the FE exam, accumulating 4 years of progressive engineering experience, and passing the PE exam (BLS, OOH). PE licensure also correlates with higher compensation — ZipRecruiter data shows PE-licensed electrical engineers earning a median of $110,000-$140,000 depending on location (ZipRecruiter, 2025). | |||
| ### What software should I list on my electrical engineer resume? | |||
| List only software you can discuss confidently in an interview. The most commonly requested tools in 2025-2026 job postings include: **MATLAB/Simulink** (simulation and modeling), **AutoCAD Electrical** (industrial electrical design), **Altium Designer** (PCB layout), **ETAP** (power systems analysis), **LTspice/PSpice** (circuit simulation), **LabVIEW** (test and measurement), and **Python** (automation and data analysis) (EE Power School). If you specialize in power systems, add PSS/E or PSCAD. If you work in semiconductors, add Cadence Virtuoso or Synopsys tools. | |||
| ### How do I quantify achievements if I work on classified or confidential projects? | |||
| Use percentages and relative metrics instead of absolute numbers. "Reduced system failure rate by 47%" does not reveal classified specifications. "Improved signal-to-noise ratio by 8dB across the operating bandwidth" conveys technical competence without exposing proprietary data. You can also use generalized descriptions: "Designed power conversion systems for defense electronics platforms" without naming the specific program. | |||
| ### Should entry-level electrical engineers include academic projects on their resume? | |||
| Yes — if the projects demonstrate real engineering skills with measurable outcomes. A capstone project where you designed, fabricated, and tested a working prototype belongs on your resume. A homework assignment where you simulated a circuit in LTspice does not. The key differentiator is whether you can describe the project with the same specificity as a work experience bullet: what you designed, what tools you used, and what measurable result you achieved. | |||
| ### What is the salary range for electrical engineers in 2024-2025? | |||
| According to the BLS (May 2024 data), the median annual wage for electrical engineers is $111,910. The 10th percentile earns below $74,670, and the 90th percentile earns above $175,460. The highest-paying industries include semiconductor manufacturing, scientific research and development, and oil and gas extraction. Geographic location matters significantly — engineers in California, Washington, and Massachusetts tend to earn the highest wages due to concentration of technology and defense employers (BLS, OES). | |||
| ### How long should an electrical engineer resume be? | |||
| One page for entry-level through approximately 5 years of experience. Two pages for mid-career and senior engineers with extensive project histories, publications, or patents. Never exceed two pages. A hiring manager reviewing 200 applications for a single opening will not read a three-page resume. If you have 15+ years of experience, be selective — include only the most impactful projects from the last 10-12 years and summarize earlier roles in 1-2 lines. | |||
| ### Which electrical engineering specializations are most in demand? | |||
| In 2025-2026, the highest-demand specializations are: **power electronics** (driven by EV, renewable energy, and data center growth), **embedded systems** (IoT, automotive, industrial automation), **semiconductor design** (GaN/SiC devices, RF circuits), and **power systems / grid engineering** (utility modernization, BESS, HVDC). Engineers who combine electrical design skills with software/programming competence — particularly Python, MATLAB, and embedded C — are commanding premium salaries (Bradley University, 2025). | |||
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| ## Citations | |||
| 1. U.S. Bureau of Labor Statistics. "Electrical and Electronics Engineers: Occupational Outlook Handbook." Updated 2024. https://www.bls.gov/ooh/architecture-and-engineering/electrical-and-electronics-engineers.htm | |||
| 2. U.S. Bureau of Labor Statistics. "Occupational Employment and Wages, May 2024: Electrical Engineers (SOC 17-2071)." https://www.bls.gov/oes/current/oes172071.htm | |||
| 3. Enercon Power. "Year-End Review: Power Trends That Shaped 2025 — and What's Coming for 2026." 2025. https://www.enerconpower.com/post/year-end-review-power-trends-that-shaped-2025-and-what-s-coming-for-2026 | |||
| 4. StartUs Insights. "Electrical Engineering Outlook 2025." https://www.startus-insights.com/innovators-guide/electrical-engineering-outlook/ | |||
| 5. Bradley University Online. "Top Electrical Engineering Innovations to Watch in 2025." https://info.online.bradley.edu/college-of-engineering/blog/emerging-electrical-engineering-innovations-2025 | |||
| 6. EE Power School. "10 Must Learn Electrical Engineering Software." https://eepowerschool.com/softwares/10-must-learn-electrical-engineering-software/ | |||
| 7. ZipRecruiter. "Salary: Electrical Engineer PE (2025), United States." https://www.ziprecruiter.com/Salaries/Electrical-Engineer-Pe-Salary | |||
| 8. StudyForFE. "Top Electrical Engineering Certifications in 2025." https://www.studyforfe.com/blog/electrical-engineering-certifications/ | |||
| 9. PPI2Pass. "What is an Engineer-in-Training (EIT) Certification?" https://ppi2pass.com/resources/fe-exam/What-Engineer-In-Training-EIT-License-Certification | |||
| 10. ExamPrep.org. "PE Engineer Salary: What Licensed Pros Really Earn." https://exam-prep.org/pe-engineer-salary/ |