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Intern Google Rf Engineer Jobs in Queens, NY (NOW HIRING)

RF Engineer Duration: 06+ months with a possible extension based on your performance (only W2 ... Google Earth / .kml import FCC ASR and ULS databases Other desired tools (a plus): Geoplan Net ...

Developer Intern

Manhattan, NY · Hybrid

$21 - $27.75/hr

We have 400+ skills between Google Home, Alexa, and Cortana live. Want to be apart of one of the ... FRSH is looking for a bright and capable Developer intern with high energy who is an extremely ...

Developer Intern

Manhattan, NY · On-site

$21 - $27.75/hr

We have 400+ skills between Google Home, Alexa, and Cortana live. Want to be apart of one of the ... FRSH is looking for a bright and capable Developer intern with high energy who is an extremely ...

... Alexa, Google home and Microsoft Cortana. With 600+ skills, we help usher businesses into the ... Utilize programming language/coding knowledge to execute front-end and backend web development ...

... Alexa, Google home and Microsoft Cortana. With 600+ skills, we help usher businesses into the ... Utilize programming language/coding knowledge to execute front-end and backend web development ...

Pulling, cleaning, and analyzing performance data from Google Ads, Meta, LinkedIn, and our internal ... Economics, statistics, computer science, engineering, math, finance, or similar. A traditional ...

We are looking for an Android intern for our 12 or 16-week Fall Program (August/September 2026 ... Experience managing apps in the Google Play Console Compensation * The monthly rate for this ...

We are looking for an Android intern for our 12 or 16-week Fall Program (August/September 2026 ... Experience managing apps in the Google Play Console Compensation * The monthly rate for this ...

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Intern Google Rf Engineer information

See Queens, NY salary details

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How much do intern google rf engineer jobs pay per hour?

As of Jul 14, 2026, the average hourly pay for intern google rf engineer in Queens, NY is $20.15, according to ZipRecruiter salary data. Most workers in this role earn between $16.83 and $21.83 per hour, depending on experience, location, and employer.

What are the key skills and qualifications needed to thrive as an Intern Google RF Engineer, and why are they important?

To thrive as an Intern Google RF Engineer, you need a solid understanding of radio frequency theory, signal processing, and wireless communication fundamentals, typically supported by coursework in electrical engineering or a related field. Familiarity with RF design tools like MATLAB, ADS, and network analyzers, as well as experience with simulation and measurement systems, is often required. Strong analytical thinking, problem-solving abilities, and effective teamwork are valuable soft skills for this role. These skills and qualities are critical for addressing complex RF challenges and contributing to innovative wireless solutions in a collaborative environment.

What does an Intern Google RF Engineer do?

An Intern Google RF (Radio Frequency) Engineer typically assists in designing, testing, and optimizing wireless communication systems and hardware. Their responsibilities may include conducting RF measurements, analyzing signal data, supporting prototype development, and collaborating with teams to solve technical challenges. Interns often work under the guidance of senior engineers, gaining hands-on experience with cutting-edge wireless technologies used in Google products. This role helps interns develop skills in RF circuit design, simulation tools, and troubleshooting techniques relevant to the telecommunications industry.

What types of projects and responsibilities can an Intern Google RF Engineer expect during their internship?

As an Intern Google RF Engineer, you can expect to work on real-world wireless communication projects, such as assisting with the design, testing, and optimization of radio frequency systems used in Google devices and infrastructure. Interns often collaborate closely with experienced RF engineers, hardware teams, and software developers to analyze signal performance, conduct lab measurements, and troubleshoot RF issues. You'll likely use industry-standard tools and simulation software, gaining hands-on experience and exposure to the latest wireless technologies. This collaborative and fast-paced environment provides valuable opportunities to learn, contribute to impactful projects, and build a strong technical foundation for a career in RF engineering.
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Posted 4 days ago


Job description

Company Description

Aditi Staffing is an MBE certified, IT Staffing firm in the US offering contract, contract-to-hire & direct hire career opportunities with Fortune Firms. Recently recognized as one of the fastest growing staffing firms and top diversity firm by the Staffing Industry Analysts, Aditi Staffing has been a partner of choice for candidates and clients. 

Visit our website: http://www.aditistaffing.com/

Job Description

Job Title: RF Engineer

Duration: 06+ months with a possible extension based on your performance (only W2)

Location: Little Rock, AR

The RF Engineer is responsible for contributing in the RF Design of the regional wireless network. Responsibilities include but are not limited to: Creates search areas and reviews search area candidates within geographic area by taking into consideration baseline, performance issues, capacity, topography, and population. Working with the performance team to improve Key Performance Indicators within his/her area. Working with traffic and implementation counterparts to understand capacity improvements needed in the network. Create site design RFDS and complete plumbing diagrams. Evaluate antennas and equipment for performance and future growth. Performing radio engineering evaluations for system planning and site acquisition. Evaluating coverage problems and requirements for coverage and capacity cells. Utilizes propagation tools and other RF related equipment such as MapInfo, GeoPlan, ATOLL, Datapro and Nortel Performance Tool for site candidate comparison, propagation and coverage review and selection, zoning and regulatory. Determination of regulatory coverage boundaries for extensions, FAA/FCC filings. Review of cell sites and design for upgrades/modifications. Prepares necessary zoning/regulatory filings for sites ensuring that compliance is met, and attends zoning meetings for assigned area as required. Works closely with real estate team to increase efficiency, minimize cost, and streamline processes related to site acquisition, leasing, and zoning submissions. Review real estate applications for accuracy prior to lease execution. Conduct RFE analysis, generate required reports and documents, and ensure 100% compliance to RFE mitigation standards within the allotted time frame. Generate and evaluate coverage and interference prediction maps. Calculate and evaluate the effects on the received signal of path-related impairments. Develop and analyze sectors, post construction, to optimize coverage and capacity. Determine the required antennas for planned frequencies and their optimal positions. Determine the required cable, antennas, and equipment to implement macro and small cell wireless network clusters. Ensure 100% regulatory requirements are met in every phase of design project. Evaluate site compliance with health, safety, and environmental requirements. Perform intermodulation analyses of antenna systems and components. As needed, calculate link budgets to evaluate system performance and reliability based on received signal level and fade margin. Calculate the efficiency of various multiple-antenna schemes, and analyze the tradeoffs involved in selecting from among them. Evaluate the effects of path loss on the received signal strength in various signal propagation environments (examples might include flat terrain, rolling hills, urbanized areas, and indoor environments [such as buildings or tunnels] with losses caused by walls, ceilings, etc.). Determine parameters related to antennas (examples might include pattern, beam width, gain, distance from an antenna or array at which far field conditions apply, spacing, beam forming, tilt, and sectorization) and analyze the effects of these parameters on coverage and capacity. Generate and evaluate coverage and interference prediction maps. Analyze propagation modeling and "drive test" measurements and make recommendations for site optimizations. Analyze design considerations and perform system design to eliminate coverage holes and to optimize capacity/coverage. Evaluate site design efficiency related to handover/handoff management and inter-technology handover/handoff. PERSONAL QUALITIES DESIRED: Personal integrity Timeliness Self-starter With initial guidance, ability to accomplish tasks with minimal supervision Attention to detail Proactive Works well with others in a team environment Excellent communication skills- written and verbal Goal-oriented / mission focused "Can-do" attitude Flexibility Superior organizational and project planning skills TOOLS EXPERIENCE REQUIRED: ATOLL Siterra MapInfo thematic map creation Microsoft Office suite of products (advanced experience level) Google Earth / .kml import FCC ASR and ULS databases Other desired tools (a plus): Geoplan Net Workflow Actix Ericsson performance tools VBA (macro creation) Roofview Test equipment such as network analyzers and spectrum analyzers DEMONSTRATED KNOWLEDGE: 4G network design and implementation o Tasks and knowledge related to: antennas, RF engineering, transmission, reception, and propagation. o Firm understanding of band performance capabilities and limitations. o Demonstrated understanding of LTE KPI's and impacts of design on them. o Planning factors for data and VoLTE. Frequency planning / de-confliction. Different types of losses and mitigation techniques. Methods to calculate antenna gain and free space path loss. The effects of outdoor terrain and indoor structures such as walls, floors, and ceilings on signal propagation. Understanding and use of topographical maps and digital terrain databases. Antenna system design and use including antenna types (examples might include Hex/Octo port panel, cross-pol array, etc.), antenna patterns, gain and EIRP, ERP, antenna size, antenna polarization, receive and transmit diversity, MIMO antenna systems, and proper antenna installation to provide for coverage and interference mitigation. Macro site design considerations in urban, sub-urban, and rural environments. Small cell design considerations in urban and sub-urban environments.

Additional Information

Thanks & Regards

Arun Kumar

Technical Recruiter 

Email: arunkr(at)aditistaffing(dot)com Â