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How to find a job with RF skills

How is RF used?

Zippia reviewed thousands of resumes to understand how rf is used in different jobs. Explore the list of common job responsibilities related to rf below:

  • Process shipments for Parcels for FedEx, RF Gun, DHL, UPS, etc.
  • Use a Radio Frequency Gun (RF) to scan bar codes.
  • Prepared orders for shipping via Windows-based software Trained and certified on motorized equipment Extensive use of RF units.
  • Fill orders of fine jewelry using RF scanner to be packaged and shipped out to various outlets throughout the U.S.
  • Pulled orders of juice, utilizing a laptop and RF gun attached to forklift.
  • Received and counted stock items, and record data manually or Rf Scanner.

Are RF skills in demand?

Yes, rf skills are in demand today. Currently, 12,557 job openings list rf skills as a requirement. The job descriptions that most frequently include rf skills are order processing clerk, microwave engineer, and tower climber.

How hard is it to learn RF?

Based on the average complexity level of the jobs that use rf the most: order processing clerk, microwave engineer, and tower climber. The complexity level of these jobs is basic.

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What jobs can you get with RF skills?

You can get a job as a order processing clerk, microwave engineer, and tower climber with rf skills. After analyzing resumes and job postings, we identified these as the most common job titles for candidates with rf skills.

Order Processing Clerk

  • Pallets
  • RF
  • Customer Orders
  • Order Entry
  • Purchase Orders
  • Data Entry

Microwave Engineer

  • RF
  • Google Earth
  • MATLAB
  • Network Design
  • Antenna
  • MW

Tower Climber

Job description:

Tower Climbers are professionals who are responsible for performing comprehensive installations, inspections, and maintenance on cell towers, self-supporting towers, and other tower transmitter systems. These climbers are required to complete tower safety courses so that they can climb communication towers to assist crews in repairing and inspecting communication boxes. They must operate heavy equipment to prepare sites for the construction and erection of communication towers. Tower Climbers should also guarantee the safety of their crews during extreme weather conditions by following company policies and procedures.

  • CPR
  • RF
  • OSHA
  • Broadband
  • Safety Equipment
  • Communication Towers

Scanner

Job description:

A scanner is responsible for producing digital copies of files and documents for company records and operational needs. Scanners often work within an office industry, assisting office personnel with paperwork by scanning documents through paper machines and equipment. They accurately prepare the files, ensuring the quality and quantity of copies before submitting them to the staff. A scanner must have comprehensive knowledge of the mechanical industry, inspecting the machine's performance and conducting repairs as needed.

  • RF
  • Computer System
  • Input Data
  • Pallet Jack
  • Scan Product
  • Patient Charts

Radio Engineer

  • RF
  • Java
  • FM
  • Transmitters
  • FCC
  • Debugging

Trouble Shooter

  • RF
  • Analog
  • RAN
  • AC
  • Windows
  • Inbound Calls

Communications Systems Engineer

Job description:

Communication systems engineers are engineering professionals who are responsible for developing communication systems and general electrical designs for their clients. These engineers are required to prepare communication designs, including diagrams, instructions, and the cost of materials for large-scale telecommunications projects. They must undergo certification training so that they can perform maintenance on communication and navigation systems. Communication systems engineers must also work with the development and test engineering to select for proper communication system components and to ensure that features are working properly.

  • RF
  • Communications Systems
  • C++
  • DOD
  • Engineering Support
  • Design Reviews

Audio Operator

  • RF
  • IFB
  • TV
  • Control Room
  • Audio Console
  • SSL

Headend Technician

  • RF
  • Troubleshoot
  • IP
  • Digital Video
  • FCC
  • Fiber Optic

Electronics Warfare Technician

  • RF
  • Test Equipment
  • Computer System
  • DOD
  • Preventive Maintenance
  • Maintenance Actions

General Warehouse

Job description:

A general warehouse worker is responsible for supporting and assisting in warehouse operations and manufacturing processes. Warehouse workers process orders and confirm shipment details for customers and resolve delivery delays immediately. They also inspect the adequacy of stock inventory, run quality checks with the products, and dispose of defective items. A general warehouse worker helps in loading and unloading merchandise from the distribution trucks and store the materials in their appropriate area within the warehouse facility.

  • Pallets
  • RF
  • Pallet Jack
  • Customer Orders
  • Quality Standards
  • Cycle Counts

Dock Clerk

  • RF
  • Security Procedures
  • WMS
  • Shipping Receiving
  • Inbound Freight
  • Pallet Jack

Engineer Technical Staff

  • RF
  • Java
  • Technical Support
  • Test Procedures
  • Logistics
  • Product Development

Radar Technician

  • Troubleshoot
  • RF
  • Transmitters
  • Technical Assistance
  • Security Clearance
  • Preventative Maintenance

Dock Operator

  • Pallets
  • RF
  • Safety Standards
  • Gauges
  • Rail Cars
  • Pallet Jack

Electronic System Engineer

Job description:

An electronic system engineer works best when it comes to designing electronic components for the upgrading of gadgets and machines. They use their expertise in various industries such as commercial, medical, and military groups. They can also create a power-saving application to ensure prolonged use of gadgets. System engineers first test products for quality control and assurance before distributing them to the masses, ensuring the safety and comfortability of those who will use them.

  • RF
  • C++
  • EW
  • Data Analysis
  • DOD
  • System Design

Electronics Engineering Manager

  • Career Development
  • RF
  • Project Management
  • Power Electronics
  • Product Development
  • Direct Reports

Broadcast Maintenance Engineer

  • RF
  • Transmitters
  • Control Systems
  • GRASS
  • Broadcast Equipment
  • Control Room

Engineering Test Specialist

  • Test Equipment
  • Test Procedures
  • RF
  • Control Systems
  • Test Reports
  • Linux

Digital Systems Engineer

Job description:

A Digital Systems Engineer's job is to manage and monitor an organization's computer infrastructure and systems. They install, configure, test, and maintain all application software, system management tools, and operating systems. They are responsible for providing guidelines about security measures, user interface, and system capabilities. Other duties that they will perform include evaluating existing systems for efficiency and effectiveness, providing recommendations for scalability, and troubleshooting any system errors and problems that may arise.

  • RF
  • MATLAB
  • Java
  • JavaScript
  • Digital Systems
  • FPGA

How much can you earn with RF skills?

You can earn up to $33,610 a year with rf skills if you become a order processing clerk, the highest-paying job that requires rf skills. Microwave engineers can earn the second-highest salary among jobs that use Python, $95,761 a year.

Job TitleAverage SalaryHourly Rate
Order Processing Clerk$33,610$16
Microwave Engineer$95,761$46
Tower Climber$41,248$20
Scanner$29,178$14
Radio Engineer$98,659$47

Companies using RF in 2025

The top companies that look for employees with rf skills are Navy Mutual, Intel, and Northrop Grumman. In the millions of job postings we reviewed, these companies mention rf skills most frequently.

RankCompany% Of All SkillsJob Openings
1Navy Mutual23%375
2Intel9%1,411
3Northrop Grumman8%3,313
4Apple6%6,696
5L3Harris6%2,248

12 courses for RF skills

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1. 5G RF Planning

udemy
4.5
(3,704)

5G NR is far more complex than previous generations of mobile networks and will still need to work together with current 4G LTE and WiFi radio access technologies (RATs), leading to challenges in network planning. So we are going to learn about Introduction to 5G Air Interface, 5G Link Budget, Propagation Model Tuning, Concepts of 5G coverage simulations, Initial Parameter Planning (PRACH Planning) terms in our 5G planning course...

2. RF / Antenna Fundamentals

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4.5
(625)

The mysterious nature of RF has long hindered the comprehension of its functions.  In reality, the behavior of RF is based on just a few simple laws of physics that are quite easily explained.    Since this course is very visual, students will promptly be able to conceive RF and antenna fundamentals on a very basic level.  Using this foundation of understanding, students will then be able to easily absorb the more advanced principles of data transfer protocols.  These principles, along with the rest of the material in the course are presented with clean graphics, simple animations, crystal-clear explanations and real-life analogies...

3. 5G RF Planning and Design

udemy
4.5
(166)

The RF planning for 5G NR is quite challenging as compared to legacy networks due to the introduction of advanced new technologies: mmWave frequencies, flexible numerology and Massive MIMO (M-MIMO) etc. This course takes a deep dive into the technical insights necessary for the radio network planning both in the the mid-band and mm-wave spectrum.  The 5G RF design and planning process is discussed both from the perspective of the system coverage and capacity objectives. The course covers the following important topic: Section 1: Introduction to 5G Planning                 5G Frequency Bands                 Most Popular 5G Bands for Deployment                 Subcarrier Spacing Vs Cell Size                 5G FDD TDD Modes-SUL and SDL Frequency Bands                 Advantages of TDD Deployment                 Steps in 5G Cellular RF Planning                 Section 2: 5G Radio Access Network (RAN) Dimensioning                 What is Coverage Dimensioning?                 What is Path Loss and Propagation Path loss Models?                 3GPP Propagation Models                          -RMa (Rural Macro)                          -UMa (Urban Macro)                           -UMi (Urban Micro)                  Propagation Models before 5G                           -Okumara-Hata Model                           -Walfisch Ikegami                           -Sakagami Kuboi Models                  Selection Criteria for Selection Of PL Model                  Maximum Allowable Path Loss (MAPL)                  Cell Area, Intersite Distance and Required Number of cells Calculation                  Link Budget Equation                  Factors affecting LInk Budget                            - Building Penetration Loss                            - Foliage (Vegetation) Loss                            - Rain Fade Margin                            - Body Block Loss                            - Interference Margin                            - Shadow Fading Margin (SFM) and Location Probability                            - Shadow Fading Margin Vs Cell Size                            - Shadow Fading Standard Deviation Values for Propagation Models & SFM calculation                            - Effect of Active Antenna Unit (AAU) on Link Budget                  Capacity Dimensioning                  Traffic Model and KPIs for capacity DImensioning                  Capacity Dimensioning CalculationSection 3: Propagation Model Tuning                 Propagation Model Tuning Steps                 Drive Test Preparation And Procedure                 Drive Test Measurements                 The Standard Propagation Model Used in Model Tuning                 Setting K1 and K2 coefficients                 Diffraction Loss Multiplier Coefficient K4                 Clutter Loss Coefficient K clutter                 Measuring goodness of Model Tuning                 Model Tuning Example from Atoll RF Planning ToolSection 4: Nominal (Detailed Simulation) Planning                 Inputs & Outputs of 5G Coverage Planning Simulation                 3D Ray Tracing Model                 Electronic Maps For RF Planning And Their Basic Formats                 3D Electronic Map Types: DTM, DLU, DHM and 3D Vector                 Coverage Planning & Plots: Composite Plot, Dominance Maps, Overlapping Zone Plot                 3D Coverage Prediction                 Monte Carlo (Dynamic) Simulations                 Defining New Services in Planning Tool                 Defining User Profiles, Gerographical User Density and Traffic Distribution                 Simulation Methodology for Monte-Carlo Simulations                 Detailed Coverage and Capacity Prediction MapsSection 5: 5G NR Beam Planning                 5G NR Beam Classification                 Static Beams                 Dynamic Beams                 Broadcast Beam Coverage Scenarios                 Scenario Selection Of Broadcast BeamsSection 6: 5G Downtilt Planning                 Antenna Tilt Types                   -Mechanical Tilt                   -Electrical Tilt                    -Preset Electrical Tilt                    -Mechanical Tilt                 Total 5G Beam Downtilt                 Same Coverage of SSB and CSI-RSRP Beams                 5G RF Downtilt Planning PrinciplesSection 7:  Detailed Parameter Planning: Physical Cell ID (PCI) Planning                 PCI Collision Free Principle                 PCI Confusion Free Principle                 Minimizing PCI Planning Impact On Network Performance                 PCI Mod 3 Staggering for PSS                 PCI Mod 4 Staggering For DMRS on PBCH                 PCI Mod 30 Staggering For DMRS on PUSCH, PUCCH and SRSSection 8:  Detailled Parameter Physical Random Access Channel (PRACH) Planning                 Preamble Sequence Formats                 Steps in PRACH Planning                 Select PRACH Format                 Calculate Number of Cyclic Shifts Ncs Cell Radius                 Calculate Number of Preambles Per RSI                 Calculate Number of RSIs per cell and RSI groups...

4. RF and millimeter-Wave Circuit Design

coursera

This unique Master-level course offered by the Center for Wireless Technology Eindhoven (CWT/e) of the Eindhoven University of Technology, The Netherlands, provides students with in-depth knowledge and hands-on experience on RF and mmWave circuit design. The course covers the topics on how to derive the RF wireless systems specifications, and how to design the main building blocks of a transceiver, i.e., low noise amplifier, power amplifier, RF mixers, oscillators, and PLL frequency synthesizers. It is divided into two parts: (1) theoretical lectures will cover the basis of RF and mmWave Circuit Design; and (2) design labs will include simulation and implementation of these circuits. The design labs are completely optional for obtaining the certificate, but they are recommended because they allow students to put into practice all the acquired theoretical knowledge, and of course, implementing the circuits is where all the fun is! The students will be able to do 70% of the design labs using simulation tools, which already offers a great learning experience. The other 30% will require students to either get access to an electronics lab or to purchase a few off-the-shelf components. But ultimately, this would allow students to design and build their own transceiver at home! The course contains theoretical video classes with examples, quizzes, and an entire set of simulation files, step-by-step procedures, recorded data of real-life circuits, and solution videos so that students can learn from and build even better circuits...

5. 4G RF Planning From A to Z

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4.9
(115)

تخطيط شبكات الجيل الرابع من شبكات المحمول من البداية للأحترافكل خطوط التخطيط بشكل بسيط وممتع- مقدمة عن ال lte- أنواع التخطيط- لماذا نحتاج التخطيط؟- خطوات التخطيط- حسابات تخطيط الشبكة- حسابات التغطية- حسابات الترافيك- مثال عملي للحسابات- محاكاة بأستخدام ال Atollمع محاكاة للتغطية على خرائط للقاهرةشرائح العرض والخرائط مرفقة مع الكورس4G networks RF planning for beginners and intermediate levels Engineersall planning steps in an easy and exiting way.- LTE Intro.- Types of planning- Why planning- Planning steps- 4G Dimensioning Capacity and Coverage - Coverage dim. steps- Capacity Dim. steps- Case Study- Atoll Simulationalso with practical case study and simulations on cairo mapspresentation and maps are included4G is the fourth generation of broadband cellular network technology, succeeding 3G, and preceding 5G. A 4G system must provide capabilities defined by ITU in IMT Advanced. Potential and current applications include amended mobile web access, IP telephony, gaming services, high-definition mobile TV, video conferencing, and 3D television. The first-release WiMAX standard was commercially deployed in South Korea in 2006 and has since been deployed in most parts of the world. The first-release Long Term Evolution (LTE) standard was commercially deployed in Oslo, Norway, and Stockholm, Sweden in 2009, and has since been deployed throughout most parts of the world. It has, however, been debated whether first-release versions should be considered 4G LTE. The 4G wireless cellular standard was defined by the International Telecommunication Union (ITU) and specifies the key characteristics of the standard, including transmission technology and data speeds. Each generation of wireless cellular technology has introduced increased bandwidth speeds and network capacity. 4G users get speeds of up to 100 Mbit/s, while 3G only promised a peak speed of 14 Mbit/s...

6. RF Microwave & Transmission Line Theory - RAHRF200

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4.5
(578)

This is the third course towards Rahsoft RF Certificate course and the first two hundred level course concentrating on RF microwave and Radio transmission line theory and principles. Please note it is recommended for students to take the courses in order but not required. In RAHCH200 we would be concentrating on fundamentals of microwave and transmission lines and would be solving many practical examples by both calculation and ADS Keysight software...

7. RF Concepts, Components and Circuits For Beginners

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3.9
(170)

Radio frequency (RF) is the oscillation rate of an alternating electric current or voltage or of a magnetic, electric or electromagnetic field in the frequency range from around 20 kHz to around 300 GHz. Radio frequency engineering, or RF engineering, is the study and application of radio waves with the purpose of creating technology and devices that can both receive and send signals using these waves. RF engineering is an important component for those working in aeronautics, telecommunications, military services, commercial radio, television and space-related professions. People use radio waves to communicate on their cell phones, and RF engineers design and implementing the technology that supports 4G and 5G networks. This is a beginner course in RF engineering that addresses important concepts, components and circuits used in the RF engineering. This course  will serve as a basis to move ahead and build upon more advanced concepts in RF engineering and designs. This  course is divided into following sections: Section 1: Introduction to RF systemsSection 2: Bigger Picture: Transmitter/Receiver Block DiagramSection 3: Important Analog And Digital Modulation SchemesSection 4: Revision Of Some Basic Electronics' conceptsSection 5: RF OscillatorsSection 6: Mixer and its ApplicationsSection 7: RF FiltersSection 8: Power AmplifiersSection 9: AntennasSection 10: Impedance Matching, Reflected Power & VSWRSection 11: S (Scattering)-ParameterSection 12: Smith Chart And Impedance MatchingSection 13: Low Noise Amplifier (LNA)Section 14: RF Attenuators and their TypesSection 15: Introduction to Software Defined Radios (SDRs)...

8. RF Design Architecture of Receiver Transmitter & Transceiver

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4.4
(401)

RAHRF409 is a complete Receiver, Transmitter and Transceiver Architecture Design course which discussed different blocks in designing Receiver, Transmitter and Transceiver and the characteristics of each design and different approaches. Various examples are provided in the course. At the end of the course the student would have a deep understanding of the topic and is able to view , understand and analyse Transceiver blocks. Please note this course has pre-Requisite of RAHRF101 and RAHRF201. We recommend students take those two previous courses before starting this course. This course is counted as a core course in Rahsoft RF Certificate...

9. Modulation in Communication System for RF Engineers RAHRF152

udemy
4.4
(456)

This course provides a second certificate completion for FREE from Rahsoft Introduction to Modulation in Communication Systems RAHRF152 is an intro course of Rahsoft Radio Frequency Certificate and it is counted toward the certificate. In this course we have concentrated to simplify the Digital and Analog Modulation topics in a way which students would understand the practicality by providing examples and simulations using GNU Octave open source software. This is a great course to understand the fundamental definitions needed in digital and analog modulation in communication system. General Consideration of Modulation 2. 1.1-Why we need modulation ?3. 1.2 - Baseband and Passband ? What is Demodulation?4. 1.3 - Career and Generic Communication System5. 1.4-Modulation Aspects: Detectability, Bandwidth & Power Efficiency, Bit Error Rate Analog Modulation 6. 2.1 - Amplitude Modulation , AM, Amplitude Demodulation, AM Applications7. How to install GNU Octave Open Source Software Used in this course8. 2.2.1 - Frequency Modulation, FM, Spectrum, FM Specs, High Index9. 2.2.2- FM Demodulation , Slope Detector , FM Pros and Cons10. 2.3- Phase Modulation, PM , FM vs PM , PM Demodulation Digital Modulation 11. Bit Rate , Baud Rate , Binary & M-ary Data, Nyquest Formula , Channel Capacity12. 3.1.1- Amplitude Shift Keying , ASK, Spectral Response Binary Data, B-ASK M-ASK13. 3.1.2- Software Example14. 3.1.3- ASK Demodulation15. 3.2.1-Frequency Shift Keying, FSK Modulator & Demodulator, Demodulation with PLL16. 3.2.2- Software Example17. 3.3.0- Phase Shift Keying (PSK) , BPSK, PSK Modulation18. 3.3.1- PSK Demodulation , PSK Demodulator, mismatch, Costas loop19. 4.1- Inter symbol interference (ISI)20. 4.2- Solving Inter symbol interference (ISI)21. 5.1- Signal Constellation, PSK and FSK Modulation Constellation22. 6.1- Quadrature modulation, I & Q , Adding Quadrature Signals and Simulation23. 6.2.0- QPSK or 4-PSK Modulation24. 5.6.2.1- Software Simulation25. 6.3.0- QPSK Features , Diagrams , Signal Constellation, Demodulation BER26. 6.3.1- I-Q Mismatch27. 6.3.2- Large Phase Change, QPSK Drawbacks , pi/4 QPSK , OQPSK...

10. Designing RF Communication Systems Using SDRs with GNU Radio

udemy
4.3
(230)

SDR is a reality around us. It is present in a lot of systems everywhere and is a versatile technology which can be used for many things, not only academics and industrial, but also ethical hacking etc. This course will comprehensively cover developing software defined radio (SDR) communications systems using the GNU Radio signal processing and development environment. The course is structured so that concepts and theory can be instantly translated to practice with hands-on implementations. We use two hardware SDR platforms:  Universal Software Radio Peripheral (USRP) as transmitter and RTL-SDR as a receiver. However, the course is designed in such a way that even if you do not have USRP, you can use any other cheap SDR as transmitter easily with slight changes in gnuradio. As far as RTL-SDR is concerned, you can easily acquire this device for $19 only. At the end of this course you will be able to make a data-communication link using SDRs. This comprehensive course is comprised of following sections to cover all the important aspects of 'Software Defined Radio' environment: Section 1: IntroductionSection 2: Communication fundamentals related to SDRSection 3: Block Diagram of SDR Hardware ExplainedSection 4: GNU Radio for Wireless CommunicationSection 5: Combating the Impairments of The Wireless ChannelSection 6: Packet Transmission using GNU Radio...

11. RF Basic Concepts & Components Radio Frequency- Entry Level

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4.4
(3,077)

Rahsoft RF Certificate Program Available courses are as below:    List of courses Available toward RF Certificate                                                                                              RF Fundamentals, Basic Concepts Components RAHRF101                Modulation and Digital Communications in RF RAHRF152    RF Design Theory and Principles RAHRF201             Advance Design System (ADS)  Basics and Applications RAHRF209-L                Receiver, Transmitter and Transceiver Architectures RAHRF409               Low Noise Amplifier (LNA) Design Fundamentals RAHRF526                       Low Noise Amplifier (LNA) Design lab using ADS RAHRF526-L                        Power Amplifier (PA) Design Fundamentals RAHRF562        Power Amplifier (PA) Design lab using ADS RAHRF562-L  Welcome to the first course of the RF certificate series. In this topic we are going to explain the basic concepts of RF design in a simplest way possible. The audience for the RF basic course are electrical engineers, technicians, sales engineers and other employees of an RF-related company who want to have general idea of RF basic concepts. At the end of this course you will have a general knowledge of the fundamental topics discussed in RF industry. This is a great crash course for people who have interviews and need to a refresher on the RF topic within a few hours and go from zero knowledge to having a general understanding of most topics. One of the most important things for us to have the most updated materials needed in the industry. Ahsan Ghoncheh, our Co-Founder and Technical Adviser, consults with different RF engineers at Broadcomm, Qualcomm, Apple and Skyworks on building practical curriculum and topics that are needed and in demand  in the industry. So instead of going the academic approach, we are going to an industry approach. I want to thank you for choosing Rahsoft and trusting us. Please feel free to contact us. We are truly excited and grateful to be going with you on this journey to becoming an RF expert. If you have any further questions, do not hesitate to contact us. Instructor: Ata Sarrafi Advisor: Ahsan Ghoncheh quizzes and coding exercises) below. Section1: An introduction to Rahsoft and the instructor Lecture1: Intro Rahsoft Ad(Preview enabled) Lecture2: Introduction(Preview enabled) Section2: FrequencyStarting from the scratch Lecture3: What is Radio Frequency ?(Preview enabled) Quiz1: T01 L01 P01 Lecture4: Application VS Frequency(Preview enabled) Quiz2: T01 L01 P02 Section3: Noise Lecture5: Noise 1 Quiz3: T01 L02 P01 Lecture6: Signal to Noise Ratio Quiz4: T01 L02 P02 Section4: V-I-F-Z Lecture7: V-I-F-Z(Preview enabled) Quiz5: T01 L03 P01 Section5: Power Lecture8: Power Quiz6: T01 L03 P02 Section6: Transceiver , Transmitter, Receiver Lecture9: RF module, transmitter, receiver(Preview enabled) Lecture10: RF Transceiver Quiz7: T01 L04 P01 Section7: Antenna Lecture11: Antenna 1(Preview enabled) Quiz8: T01 L05 P01 Lecture12: Antenna 2 Quiz9: T01 L05 P02 Section8: Filters Lecture13: RF Filter 1 Quiz10: T01 L06 P01 Lecture14: Filter Types Quiz11: T01 L06 P02 Section9: Components Lecture15: Active vs Passive Components(Preview enabled) Quiz12: T01 L07 P01 Section10: Low Noise Amplifies Lecture16: Low Noise Amplifer (LNA)(Preview enabled) Quiz13: T01 L08 P01 Section11: Mixer Lecture17: Mixer Quiz14: T01 L09 P01 Section12: VCO and Oscillators Lecture18: VCO and oscillators Quiz15: T01 L10 P01 Section13: Phase Lock Loop Lecture19: PLL 1(Preview enabled) Quiz16: T01 L11 P01 Lecture20: PLL 2 Quiz17: T01 L11 P02 Section14: Power Amplifier Lecture21: Power Amplifer (PA)(Preview enabled) Quiz18: T01 L12 P01 Section15: Modulation Lecture22: Modulation (Analog) Quiz19: T01 L13 P01 Lecture23: Modulation (Digital) Quiz20: T01 L13 P02 Section16: Linearity Lecture24: Linearity Quiz21: T01 L14 P01 Section17: Phasor Lecture25: Phasor Lecture26: Phasor Quiz22: T01 L15 P01 Section18: Matching Lecture27: Matching Quiz23: T01 L16 P01 Lecture28: Matching Quiz24: T01 L16 P02 Section19: Attenuator Lecture29: Attenuator Quiz25: T01 L17 P01 Section20: S-parameter Lecture30: S-param Quiz26: T01 L18 P01 Section21: Smith-Chart Lecture31: Smith-Chart Quiz27: T01 L19 P01 Section22: Software Lecture32: Software Lecture33: Software Quiz28: T01 L20 P01 Section23: Measuremet Devices Lecture34: Measurement Devices Lecture35: Measurement Devices Quiz29: T01 L21 P01 Section1: IntroductionAn introduction to Rahsoft and the instructor...

12. Introduction to RF Design Theory and Principles - RAHRF201

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Rahsoft RF Certificate Program Available courses are as below:    List of courses Available toward RF Certificate                                                                                              RF Fundamentals, Basic Concepts Components RAHRF101                Modulation and Digital Communications in RF RAHRF152    RF Design Theory and Principles RAHRF201             Advance Design System (ADS)  Basics and Applications RAHRF209-L                Receiver, Transmitter and Transceiver Architectures RAHRF409               Low Noise Amplifier (LNA) Design Fundamentals RAHRF526                       Low Noise Amplifier (LNA) Design lab using ADS RAHRF526-L                        Power Amplifier (PA) Design Fundamentals RAHRF562        Power Amplifier (PA) Design lab using ADS RAHRF562-L  In RAHRF201 you would get deeper into Radio Frequency Design Theory and Principles. The reference book for this course is RF Microelectronics of Behzad Razavi. At the end of this course the student will have depth knowledge of Radio Frequency principles. The team's main goal while developing the course has been to concentrate more on the concepts in order for students to understand the topics rather than simply providing formulas.  This course has helped Engineers on surviving complicated phone and onsite interviews of Fortune 500 RF Companies and gain salaries on their early careers from 70K~120K. This course is also helpful for Engineers in the industry or technicians which want to change gears towards Radio Frequency.  The above course is taught on campus in groups and now it is being provided online as well for individuals. Rahsoft provides these courses online through Udemy as well as its own website and it counts toward RF Certificate provided through Rahsoft. Below you can find the topics taught in RF Design Theory and Principles (RAHRF201) Section2: PowerHave a complete understanding of power in Radio FrequencyLecture3: Instantaneous and average powerLecture4: Power Example 1Lecture5: power and phasorLecture6: Power Example 2Lecture7: Complex powerLecture8: Complex Power SummaryLecture9: Power Example 3Lecture10: Complex Power ADS simulationLecture11: Maximum powerLecture12: Max power ADS simulationLecture13: Power and Matching(Preview enabled)Lecture14: Max Power and Matching SummaryLecture15: dB, dBm and power gainSection3: Mos TransistorLecture16: MOS Transistor structure and DC characteristicsLecture17: Small signalLecture18: Small signal modelLecture19: Parasitic cap and fTLecture20: ADS FTLecture21: MOS Example 1Section4: Non LinearityLecture22: IntroLecture23: Harmonic distortionLecture24: Gain CompressionLecture25: Gain Compression ADS exampleLecture26: Harmonic Distortion and Gain Compression SummaryLecture27: Desensitization(Preview enabled)Lecture28: Desensitization ExampleLecture29: IntermodulationLecture30: Intermodulation IIP3Lecture31: Intermodulation Example 1Lecture32: Intermodulation Example 2Lecture33: Intermodulation Example 3Lecture34: Cascaded StagesSection5: NoiseLecture35: IntroLecture36: Device NoiseLecture37: Input Referred NoiseLecture38: Input Referred Noise ExampleLecture39: Noise Figure (NF) First Part(Preview enabled)Lecture40: Noise Figure (NF) Second PartLecture41: Noise Figure (NF) Example 1Lecture42: Noise Figure (NF) Example 2Lecture43: Noise in Cascaded stagesLecture44: Noise in Cascaded stages ExampleLecture45: Noise in Passive Reciprocal CircuitsLecture46: Noise in Passive Reciprocal Circuits ExampleSection6: Sensitivity and Dynamic RangeLecture47: Sesitivity(Preview enabled)Lecture48: Sensitivity ExampleLecture49: Dynamic RangeLecture50: Dynamic Range ExampleSection7: RLC circuitLecture51: RLC resonance CircuitsLecture52: Bandwidth and Quality FactorLecture53: RLC ADS simulationLecture54: Two component networksLecture55: Low Quality Factor ExampleLecture56: Matching Circuit...